SU845009A1 - Device for simultaneous measuring of density, volumetric and mass flow rate - Google Patents

Description

increased accuracy and increased measurement range.

FIG. 1 shows a diagram of the device; in fig. 2 - the same section.

The device comprises a housing 1, for example a square shape, made of a non-magnetic metal, inside which there is a cavity 2. The upper part is bounded by a profiled pole of the rod 3, embedded into the upper part of the housing 1. The rod 3 is made of electrical, magnetic steel and hermetically welded to the housing 1. A coil 4 is put on the rod 3, the ends of which can be connected to the voltage source. In the cavity 2, in the immediate vicinity of the pole profile of the rod 3, there is a permanent magnet 5, the poles of KOTopoiro are oriented to the side walls of the housing 1. The magnet 5 is rigidly fixed on the end of the rod 6, which makes it rotate around the axis 7, reinforced in the bottom of the frame 1. At the other end of the rod 6, the plate is rigidly fixed — the probe 8; the plane of the co-gravel is oriented at an angle to the direction of flow. In the side walls of the housing 1, inductive sensors EMF 9 and 10 are mounted. All elements of the device located on housing 1 are installed symmetrically with respect to axis 7.

The cavity 2 is filled with a low-viscosity fluid and is limited in the lower part of the housing 1 by an elastic separation film 11.

The housing 1 is hermetically attached to the landing plate 12 of the pipeline, having a hole in the center through which the probe plate is introduced into the stream. The movement of the rod 6 together with a permanent magnet 5 fixed at its ends and a plate-probe 8 is limited by the walls of the cavity 2.

The device works as follows.

The vibrator produces electric rectangular, alternating polarity pulses of constant amplitude voltage. During the negative pulse, the coil 4 of the signal sensor is connected to the pole of the voltage source.

The rod 3 is magnetized and a north pole forms at its profiled end, interacting with the field of the permanent magnet 5. As a result, a rotating moment arises and the plate — the probe begins to rotate clockwise (forward direction). In the moment

stopping it due to the permanent magnet 5 of the side wall of cavity 2, a voltage pulse is generated at the output of inductive sensor 10, which is applied to the input of the vibrator, as a result of which the vibrator switches and generates a positive pulse that connects the coil 4 to the source minus wives As a result, the direction of the current in it is reversed, which contributes to the change of the magnetic poles on the rod 3. The South pole already interacts with the field of the permanent magnet 5 and the probe plate begins to move counterclockwise (the opposite direction

At the moment of its stopping, due to the permanent magnet 5 reaching the side surface of the cavity 2, a voltage pulse is generated at the output of the inductive sensor 9, which is applied to the input of the vibrator. As a result, the vibrator switches, resulting in the formation of a negative pulse.

The process then repeats.

The information enters the computing device (not shown in Fig.) In which the multiplication and integration blocks are located.

Claims (2)

1. A device for simultaneous measurement of the density, volumetric and mass flow rate of flow, comprising a housing with a transmitter-probe transducer located therein, an electromagnetic actuator installed outside the housing, a vibrator, a probe-probe position sensor and a computing device, characterized in that In order to increase accuracy and increase the measurement range, the plate-probe is installed with its surface at an angle to the flow direction with the ability to move across the cross section of the pipeline relative to the flow. 2. The apparatus of claim 1, about tl and tea. These are because the reference angle of the plate is within a sl. ; 7G / a. Sources of information taken into account in the examination 1. US patent number 4026150, class. 73-194 1977. 2, US Patent No. 3426593, cl. 73-194, 1969 prototype).