RU170928U1 - WINGED WATER METER - Google Patents

Abstract

The utility model relates to instrumentation, in particular to means for measuring the amount of fluid flowing through a pipeline, and can be used in water supply and hydraulics. A distinctive feature of the solution is a change in the design of the measuring insert installed in the flow chamber of the meter body. The measuring insert consists of a direct insert with supports, a ring, a cover with supports and an impeller with seven blades. The directing element of the measuring insert, made in the form of a louvre lattice located in the inlet window and having three inlet slit openings, ensures the separation of the input liquid flow into plane jets and their simultaneous direction into three blades. The technical result is the provision of a uniform load of the fluid flow on the impeller bearings and, as a result, to a decrease in their wear, an increase in their durability. 5 silt

Description

Vane Water Meter

The utility model relates to instrumentation, in particular to means for measuring the amount of fluid flowing through a pipeline, and can be used in water supply and hydraulics.

Known vane water meter, patent RU. 2156442 (JSC "Plant" Vodopribor "), in which the impeller is placed in a fully removable cassette having its own case with a lid, entrance and exit windows. The cassette is installed in the inner chamber of the meter body. The counter is equipped with a jetting device made in the form of a louvre lattice and located in the entrance window of the cassette, while the louvre lattice plates with their long sides are oriented parallel to the axis of rotation of the impeller and are installed at different angles of attack. The louvre grille divides the incoming fluid stream into flat jets and focuses them on the impeller blade at a predetermined distance from its axis of rotation.

The disadvantage is the one-sided load on the impeller bearings and, as a result, the occurrence of friction, a decrease in efficiency and rapid wear of the bearings.

The technical result of this utility model is to ensure a uniform load of fluid flow on the impeller supports and, as a result, increase the efficiency and reduce wear of the supports.

This is achieved by increasing the number of impeller blades of FIG. 4 from five to seven blades and a change in the design of the measuring insert of FIG. 1, which consists of the insert of FIG. 2 with a sleeve and a thrust bearing on which the sealing ring of FIG. 3 and the lid of FIG. 5 with a sleeve and a thrust bearing. The bushings and thrust bearings in the insert and cover are sliding bearings for the impeller of FIG. four.

The design of the measuring insert is a directing element made in the form of a louvre grille located in the housing of the flow transducer so that the inlet is blocked. The louvre lattice has three inlet slit openings, which provide for the separation of the input liquid stream into three flat jets, which are simultaneously directed to the ends of the three impeller blades, thereby accelerating its rotation due to the fact that each separate stream additionally “catches up” the previous impeller blade. This ensures a uniform load on the thrust bearings 1, 5 and the hubs 2, 4 of the impeller, while reducing their wear, increasing efficiency and durability.

In FIG. 1 shows a measuring insert installed in the flow chamber of the meter housing.

In FIG. 2 shows an insert 3 with a thrust bearing 1 and a sleeve 2.

In FIG. 3 shows a sealing ring.

In FIG. 4 shows an impeller with 7 blades.

In FIG. 5 shows a cover 6 with a sleeve 4 and a thrust bearing 5.

Claims (1)

A vane water quantity meter comprising a housing with an inlet and outlet channel, an inner chamber in which a tangential impeller is placed in an integrally removable cassette with inlet and outlet windows, a flow unit made in the form of a louvre grill located in the inlet window, the plates of which are installed at different angles attacks and form a package of slotted confusers, characterized in that, in order to reduce the load on the thrust bearings and impeller bushings and, as a result, reduce their wear, the design of the inserts configured so that the louvre provides division of the input fluid stream into three flat jet and sending them concurrently on three blade impeller, which ensures a uniform load on the bearings of the impeller and supports reduction of wear, increasing their durability.

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