SU1545116A1 - Device for measuring pressure of medium in pipe-line - Google Patents

Abstract

The invention relates to a measurement technique, in particular, devices for measuring pressure of a medium in pipelines. The aim of the invention is to improve the measurement accuracy by reducing the vibration error. The device contains a clamp 1 consisting of two jaws connected by an axis 2, on which a bearing 3 and a cylindrical piezo element 5 are installed. The device with the help of clamp 1 is installed on the pipeline 9 so that the walls of the pipeline are covered with tape 6. When the pipeline expands, the tension of the tape and compression of the piezoelectric element 5 change, resulting in a signal on the leads of the conductors 12 proportional to the pressure of the medium in the pipeline. When the pipeline vibrates perpendicularly to the axis of the device, the resulting pressure difference at the ends of the belt 6 leads only to rotation of the piezoelectric element 5 on axis 2, without changing the pressing force of the piezoelectric element and, therefore, not changing the output signal of the device. 2 Il.

Description

/ 4L.

The invention relates to a measurement technique, in particular, to devices for measuring pressure, for example, in tubes of a fuel apparatus — for shipboard internal combustion engines — as well as for determining the irregularity of the fuel supply to the engine cylinders.

The aim of the invention is to improve the accuracy of the device by reducing the vibration error.

FIG. 1 shows a device for measuring internal pressure, a type of term; in fig. 2 is a section A-A in FIG. 1. l

The device consists of a body 1, (composed of two parts, connected with axis 2, the bearing 3 is put on the front bearing, which is inserted through the elastic insulating gasket 4 by a cylindrical piezoelectric element 5, crimped with elastic tape 6. The latter has two Bfeipes The inner 7 and outer 8, whereby the ends of the tape intersecting and crimping the high-pressure tube 9, are attached to the different ends of the housing 1 through the axes 10. In a compressed state, the ends of the housing 1 support the springs 11. An electrical signal is passed around the conductors 2.

The device works as follows.

The ends of the sensor housing 1 are pressed with the springs 11 to the pressure pipe 9 BiiicoKoro. Elastic tape 6 compresses the fuel tube 9. When the fluid pressure in the tube 91 is increased, the pressure on the elastic tape 6, which is a cylindrical piezoelectric element 5, also expands. At 3iroM, an electrical signal is removed from the conductors 12.

In the absence of pressure in the liquid, the tube 9 is compressed under the action of its own elasticity, the tension in the elastic belt 6 is weakened and the compression of the cylindrical piezoelectric element 5 ceases. There is no electrical signal in the conductors 12,

The use of the proposed device for measuring the internal pressure in the tubes will improve the measurement accuracy by reducing the vibration error.

With vibration, the oscillations of which coincide with the joint axis of the high-pressure tube and the axis of the device, due to the rigidity of the housing parts, the oscillations are synchronous and there is no pressure on the piezoelectric element, there is no electrical signal.

With vibration, the oscillations of which are perpendicular to the joint axis of the high pressure tube and the axis of the cylindrical piezoelectric element, the device body oscillates with a center of rotation coinciding with the axis of the high pressure tube. The axis of the cylindrical piezoelectric element, oscillating around a circle centered on the axis of the tube, rotates the piezoelectric element on the bearing, which is caused by the difference in force between the elastic band, namely the decrease in the force from one side of the tape and the increase in the other side. in the initial state. Consequently, there is no pressure from vibration on the cylindrical piezoelectric element; there is also no electrical signal.

Claims (1)

Invention Formula A device for measuring the pressure in a pipeline containing a cylindrical piezo element, an elastic element and a clamp in the form of two jaws movably interconnected by an axis, characterized in that, in order to improve accuracy, the jaws in it are spring-loaded and the cylindrical piezoelectric element is movably mounted on the axis , moreover, the elastic element is made in the form of a tape, looping around the piezoelectric element and the ends of which are fixed on the free ends of the jaws. 7 04 2 FIG. 2