RU90554U1 - PRIMARY MEASURING TRANSMITTER OF SOUND SPEED SENSOR IN LIQUID - Google Patents

Abstract

1. The primary measuring transducer of the speed of sound in liquid, containing a cylindrical body with windows for the free flow of the controlled fluid, with a rigidly attached base with an acoustic reflector in the lower part, an acoustic transducer, the body is made in the form of a body of revolution with a mounting flange and an internal cavity, lower the acoustic transducer housing part has a membrane, and its cylindrical upper part is provided with sealing and fastening elements to the housing of the immersion unit at the same time, in the inner cavity of the acoustic transducer housing filled with a sound absorber, a disk piezoelectric element is placed, the first flat surface of which is attached to the inner surface of the membrane, and its second flat surface is rigidly connected to a metal cone having an electrical terminal in the upper part, characterized in that introduced the second base with an axial hole, which is rigidly attached to the upper part of the cylindrical body of the primary measuring transducer, In this case, the acoustic reflector of the first base of the cylindrical body and the lower part of the acoustic transducer body are made in the form of truncated cones, the lower part of the acoustic transducer housing being inserted into the hole of the second base of the primary transducer housing, to which the flange of the acoustic transducer housing is attached, and the first flat surface of the disk the piezoelectric element is covered with sealant. ! 2. The primary measuring transducer according to claim 1, characterized in that

Description

The utility model relates to the field of measurement technology and can be used in sensors of pulsed and pulse-cyclic sound velocity meters in liquids.

Primary measuring transducers for sound velocity sensors in a liquid are known. So, in the author's certificate [1], a primary measuring transducer was proposed containing emitting and receiving acoustic transducers, a massive membrane made with a cone-shaped concavity, sealing elements and fastenings to the housing cover of the immersed unit, as well as a stand with an acoustic reflector.

The advantage of the primary measuring transducer according to the copyright certificate [1] is the absence of multiple reflections of acoustic pulses between the reflector and the membrane. Its disadvantage is the large number of parts and the complexity of the design.

In the book [2] a description is given of a primary measuring transducer of a pulse-cyclic sound velocity meter in water containing a reversible acoustic transducer mounted on the housing cover of an immersion unit, on which racks with an acoustic reflector are also mounted. An acoustic transducer uses a piezoelectric disk element, one side of which is spherically concave.

The advantage of this primary measuring transducer [2] is its good shape and short duration of received pulses. Its disadvantages include the presence of other, lower-frequency, modes of damped oscillations, as well as the reception of multiple reflections of acoustic pulses between the reflector and the transducer.

The closest in combination of features and technical nature to the proposed utility model is the primary measuring transducer of the sound velocity sensor in sea water, the description of which is given in article [3].

The primary measuring transducer comprises a housing with windows for the free flow of the controlled fluid, provided at the bottom with a movable base with a cylindrical reflector. An acoustic transducer is rigidly attached to the upper part of the casing, which consists of a cylindrical casing with a membrane and a flange in the lower part. A high-frequency connector is installed in the upper part of the converter housing. In the inner cavity of the transducer housing there is a flat disk piezoelectric element attached by one plane to the inner surface of the membrane. Its other plane is attached to a metal cone. The internal cavity of the converter housing is filled with a sound absorber, which is made of a mixture of epoxy resin and finely divided tungsten carbide powder (VK-18 alloy).

The advantage of the primary measuring transducer [3] - prototype is the good shape and short duration of the received pulses, the relatively low level of other vibration modes and multiple reflections of acoustic pulses between the reflector and the transducer.

Its disadvantage is the presence of a continuous membrane, a movable housing base with a cylindrical reflector, rigid mounting of the transducer housing to the housing of the primary measuring transducer, and the use of a tungsten carbide deficient fine powder in the sound absorber, which complicates and increases the cost of manufacturing the primary transducer and does not significantly reduce the level of multiple reflections of acoustic pulses between the reflector and the transducer.

The technical result of the utility model is the creation of a primary measuring transducer of the sound velocity in liquid with a simpler manufacturing technology and with a lower level of multiple reflections of acoustic pulses between the reflector and the transducer.

To achieve the technical result indicated in the primary measuring transducer of the sound velocity sensor in a liquid, containing a cylindrical body with windows for the free flow of the controlled liquid, to which in its lower part is attached the first base with an acoustic reflector, the acoustic transducer body, made in the form of a hollow body of revolution with a mounting flange and a membrane in the lower end having in the upper cylindrical part sealing elements and fastenings to the housing of the immersed block of a sound velocity meter with a disk piezoelectric element located in the internal cavity of the acoustic transducer housing filled with a sound absorber, the first flat surface of which is attached to the inner surface of the membrane, and its second surface is rigidly connected to the metal cone, new features are introduced - an axial axis is made in the membrane of the acoustic transducer housing the hole, the acoustic reflector and the lower part of the acoustic transducer housing are made in the form of truncated cones, a second e base rigidly attached to the transducer housing, with an axial hole in its lower part is inserted into the housing the acoustic transducer, a flange which is attached to the second substrate, wherein the first planar surface of the disc piezoelectric element is covered with sealant. The fastening of the first base with an acoustic reflector to the cylindrical body of the primary measuring transducer is fixed, and the sound absorber is made of a mixture of epoxy resin and quartz sand in a volume ratio of 1: 0.75 ... 1: 1.25.

The essence of the utility model is illustrated by figure 1, which shows the drawing of the primary measuring transducer of the speed of sound in liquid.

The proposed primary measuring transducer of the speed of sound in liquid contains a cylindrical housing 1 with windows for the free flow of the controlled fluid. The first base 2 is rigidly attached to the lower part of the housing 1 with an acoustic reflector in the form of a truncated cone. A second base 3 with an axial hole is rigidly attached to the upper part of the housing 1. The lower part of the acoustic transducer body 4, made in the form of a body of revolution with an internal cavity and with a mounting flange to the base 3 of the housing 1, is inserted into the hole. The upper cylindrical part of the housing 4 has sealing elements and fasteners to the housing of the immersed block of the sound velocity meter (not shown in the figure ) The lower part of the housing 4 is made in the form of a truncated cone with a membrane 5, which has an axial hole. A disk piezoelectric element 6 is placed in the inner cavity of the housing of the acoustic transducer 4, the first flat surface of which is attached to the inner surface of the membrane, and the second flat surface is rigidly connected to a metal cone 7, which has an electrical terminal 8 in the upper part. The internal cavity of the acoustic transducer 4 is filled with a sound absorber 9 The first (outer) surface of the piezoelectric element 6 is covered with sealant.

The primary measuring transducer of the speed of sound in liquid operates as follows. The sound velocity sensor is immersed in the test fluid. The output of the pulse generator is connected to the electrical terminal 8 of the metal cone 7 of the primary measuring transducer of the sound velocity in liquid sensor. A short electrical video pulse shock excites the piezoelectric element 6. The corresponding ultrasonic pulse propagates in the liquid to the base reflector 2 and back to the piezoelectric element 6, which converts it into the corresponding electric pulse. The propagation time of the ultrasonic pulse to the base reflector 2 and back to the piezoelectric element 6 and, accordingly, the time interval between the emitted and received electric pulses, unambiguously depends on the value of the speed of sound in the studied fluid.

There are also multiple reflections of the ultrasonic pulse from the piezoelectric element 6 and the base reflector 2, which lead to the appearance of false electrical signals at the output of the primary transducer of the sound velocity sensor in the liquid, which impede the normal functioning of the sound velocity sensor. The metal cone 7 (acoustic trap) and sound absorber 9 reduce the level of multiple reflections. The received pulsed acoustic signal passing through the first surface of the piezoelectric element penetrates into the metal cone 7, where it undergoes multiple reflection from its side surface and gradually damps. The signals passing through the surface of the cone 7 into the inner cavity of the housing of the transducer 4 are attenuated in the sound absorber 9. Therefore, only a small part of the level of the received pulsed acoustic signal returns to the outer surface of the piezoelectric element 6 and is reradiated to the reflector.

In order to further reduce the level of multiple reflections of a pulsed acoustic signal from the elements of the housing of the primary transducer, the reflector of the base 2 of the primary transducer and the lower part of the housing 4 of the acoustic transducer are made in the form of truncated cones, which ensures the dispersion of acoustic signals due to the side lobes of the directivity of the acoustic transducer. The implementation of the membrane 5 in the lower part of the housing 4 of the acoustic transducer is not continuous, but with an axial hole, provides better acoustic matching of the piezoelectric element 6 with the test fluid. This, as well as coating the outer surface of the piezoelectric element 6 with absorbent sealant, leads to an additional decrease in the level of multiple reflections of acoustic signals.

To simplify the manufacturing technology of the primary measuring transducer of the speed of sound in liquid, its body 1 is made of a piece of a standard metal pipe. The bases 2 and 3 are attached to it by welding. The acoustic transducer is an independent part, manufactured and checked separately, attached to the base 3 of the housing 1 with the possibility of disassembly and replacement. The metal cone 7 with the electrical output 8 of the acoustic transducer are one single part. The sound absorber filling the internal cavity of the acoustic transducer housing is made of a mixture of epoxy resin and quartz sand in a volume ratio of 1: 0.75 ... 1: 1.25.

Several prototypes of the primary measuring transducers of the sound velocity in liquid sensor were manufactured using this utility model, the testing of which in laboratory conditions showed the expected results.

BIBLIOGRAPHY

1. A.S. USSR No. 552517. G01H 5/00. E.D. Popov. The mechanical-acoustic part of a cyclic meter of sound velocity in a liquid. 05.22.75 No. 2136497/10. 03.30.77 BI No. 12.

2. Komlyakov V.A. Shipborne means of measuring the speed of sound and modeling of acoustic fields in the ocean. SPb .: Science. 2003.p.357.

3. Ismailov TK, Izmailov A.M., Gurevich V.M. Frequency-time hydrological sound velocity meter // Oceanology. T. 22, issue 5. p. 839-843.

Claims (3)

1. The primary measuring transducer of the speed of sound in liquid, containing a cylindrical body with windows for the free flow of the controlled fluid, with a rigidly attached base with an acoustic reflector in the lower part, an acoustic transducer, the body is made in the form of a body of revolution with a mounting flange and an internal cavity, lower the acoustic transducer housing part has a membrane, and its cylindrical upper part is provided with sealing and fastening elements to the housing of the immersion unit at the same time, in the inner cavity of the acoustic transducer housing filled with a sound absorber, a disk piezoelectric element is placed, the first flat surface of which is attached to the inner surface of the membrane, and its second flat surface is rigidly connected to a metal cone having an electrical terminal in the upper part, characterized in that introduced the second base with an axial hole, which is rigidly attached to the upper part of the cylindrical body of the primary measuring transducer, In this case, the acoustic reflector of the first base of the cylindrical body and the lower part of the acoustic transducer body are made in the form of truncated cones, the lower part of the acoustic transducer housing being inserted into the hole of the second base of the primary transducer housing, to which the flange of the acoustic transducer housing is attached, and the first flat surface of the disk the piezoelectric element is covered with sealant. 2. The primary measuring transducer according to claim 1, characterized in that the fastening of the first base to the cylindrical body is made stationary. 3. The primary measuring transducer according to claim 1, characterized in that the sound absorber is made of a mixture of epoxy resin and quartz sand in a volume ratio of 1: 0.75 ... 1: 1.25.