RU1774173C - Liquid flow meter - Google Patents

Abstract

The invention relates to measuring instruments for measuring fluid flow and can be used both in public utilities and in industry. The aim of the invention is to improve the accuracy of measuring fluid flow regardless of the pressure in the supply pipe and the reliability of the device. To this end, the device casing is divided by a vertical partition into communicating in the lower part of the tank, in one of which there is a vane spinner connected to the counting mechanism, and in the other tank there is a liquid level regulator in the form of a float with a rod interacting with a lever that blocks the hole made in the upper part of the body, 2 e.p. f-ly, 3 ill.

Description

The invention relates to measuring instruments for measuring fluid flow and can be used both in public utilities and in industry.

A device for measuring liquid flow rate is known, comprising a housing with a movable sensing element having a horizontal axis connected to the counting mechanism, a liquid level float regulator having a rod, a supply pipe, the outlet end of which is located above the sensor, and a discharge pipe.

The disadvantage of this device is the low operational reliability and accuracy of measuring fluid flow.

The aim of the invention is to improve the accuracy of measuring fluid flow regardless of the pressure in the supply pipe and the reliability of the device.

The goal is achieved in that a vertical baffle is installed in the device for measuring fluid flow inside the housing with the formation of tanks connected to each other, in one of which a sensing element with a supply pipe is placed, and in the other there is a float level regulator, and in the upper part of the wall the last tank there is an opening overlapped by one shoulder of the two shoulders of the lever interacting with the other shoulder with the rod of the level regulator float, the sensitive element is made in the form of a vertical lobe stnoy vane outlet end supply conduit located behind the vertical transverse plane of the vane in the course of its rotation, and the outlet conduit disposed below the vane blades.

Figure 1 shows the proposed device; figure 2 is the same top view (without

VI VI

VI

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counting mechanism); Fig. 3 is a view A in Fig. 1.

A device for measuring fluid flow comprises a housing 1, consisting of interconnected upper and lower parts. In the upper part of the casing 1 there is an opening 2 for air outlet and a viewing window 3 closed by glass. Inlet and outlet pipes 4 and 5 are connected to the lower part of the casing 1. A vertical partition 6 is installed inside the casing 1, dividing the casing into two communicating with each other another tank, in one of which a sensing element is placed - a vertical vane spinner 7, which is covered externally by the output end of the supply pipe A, and in the other - a float regulator of the liquid level, containing a float 8 with a rod 9, a prop through the hole in the mounting brackets 10.11, and a two-arm lever 12, one of the shoulders of which is located opposite the hole 2 (to block it), and the second is above the upper end of the rod 9. The two-arm lever 12 is pivotally mounted on an arm 13 connected to the partition 6.

The rotary vane 7 together with the output end of the supply pipe 4, which is made of tetrahedral, is closed by a casing 14, attached to the partition 6 and resting on the rack 15. An arm 16 is attached to the partition 6 on the same side, into which one end is rotatably inserted the horizontal axis 17 of the blade pin 7 (the second end of the axis is installed in the rack 15).

On the horizontal axis 17 there is a worm to 18, in contact with the worm wheel 19, provided with a rod 20 for transmitting rotation to the counting mechanism 21. In the lower part of the vertical partition b, holes 22 are made for the passage of liquid under the float 8 during operation of the device, and the outlet the pipeline 5 is located below the blades of the turntable 7.

The lower edge of the outlet end of the pipeline 4 ends at point B (Fig. T), and the lateral and upper faces of this end converge at point B, where the upper edge is connected to the fastening column 23, which ensures the rigidity of the output end of the supply pipe 4. At the same time, the output the end of the supply pipe 4 is located behind the transverse vertical plane of the blade pin in the direction of its rotation, which excludes the possibility of rotation of the blade pin in the opposite direction (counterclockwise in Fig. 1). The blades of the turntable 7 and its side disks form buckets 24.

The device operates as follows.

The fluid through the pipeline fills the lower part of the housing 1 to a level corresponding to the line G-G in figure 1, and in the absence of further flow of liquid

0 level increase does not occur, because the float 8 presses the rod 9 against the two-arm lever, which one of the shoulders closes the air outlet 2. No liquid 5 escapes from the outlet end of the pipe 4 - it prevents the volume of air in the cavity of the housing 1.

If there is a flow, the liquid through the outlet end of the supply pipe 4 enters one of the buckets 24 of the impeller 7, which rotates, and the next bucket is substituted. With its rotation, the rotary vane 7 with the help of the worm 18 located on its axis 17 rotates the worm wheel 19, which, in

5, in turn, through the rod 20, the rotation is transmitted to the counting mechanism 21, showing the flow rate of liquid flowing out of the device through the outlet pipe 5. A higher flow rate of the rotary vane 7 corresponds to a higher rotation speed. Placing the outlet pipe 5 below the blades of the turntable 7 makes it possible to set the liquid level during operation of the device so that

5, the blades of the turntable 7 during its rotation do not come into contact with the volume of liquid flowing into the lower part of the housing 1. The presence of a vertical partition b inside the housing 1 eliminates fluctuations in the surface of the liquid (caused by the pouring of portions of liquid from the ladles) at the location of the float 8.

When air enters from the pipeline 4 into the cavity of the housing 1, it displaces part

5, the float 8 is lowered, the lever 12 opens the hole 2, and excess air is removed.

Claims (3)

1. Flow meter 0 fluid containing the housing, a movable sensing element having a horizontal axis connected to the counting mechanism, a float regulator of the liquid level, having a rod 5 is a pipe, the output end of which is located above the sensor element, and a discharge pipe, characterized in that. that, in order to improve the accuracy of measuring fluid flow regardless of the pressure in the supply pipe and reliability of operation, a vertical partition is installed inside the housing with the formation of tanks communicating with each other, in one of which there is a sensitive element with a supply pipe, and in the other there is a float level regulator, and in the upper part of the wall of the last tank there is an opening overlapped by one shoulder two shoulders of the lever interacting with the other shoulder with the rod of the float of the level regulator, the movable sensing element is made in the form of a vertical vane rotor, the output end 0 the supply pipe is located behind the transverse vertical plane of the pinwheel in the direction of its rotation, and the discharge pipe is located below the pinwheel blades. 2. The device pop 1. differs in that the containers are interconnected by means of openings made in the lower part of the vertical partition. 3. The device according to claim 1, characterized in that a movable sensing element with a supply pipe is placed inside a casing attached to a vertical partition. TO fS Figure 1 // M / g view / 1 lit  -rdS 01 IB N Editor S.Kulakova Fig.Z Compiled P, Nameless Tehred M.-Morgenthal Corrector S. Pekar f9