DE202015104291U1 - Flow measuring device for measuring a flow rate of a fluid - Google Patents

Abstract

Flow measuring device (1) for measuring a flow rate of a fluid (F) flowing in a line (L) in a main flow direction, comprising at least one ultrasonic device (2) for emitting and / or receiving ultrasonic waves, the ultrasonic device (2) a transducer unit (3) for generating and / or receiving the ultrasonic waves and a transmission unit (4) for transmitting the ultrasonic waves to the conduit (L), and wherein the ultrasonic means (2) by means of the transmission unit (4) on an outer side of a wall of the Line (L) is fixed, characterized in that the transmission unit (4) on one of the line (L) opposite side has a 3D structure (7), wherein in the 3D structure (7) of the transmission unit (4) one on One side of a damping layer (6) provided 3D counter-structure (8) can be used, so that there is a positive contact surface between the transmission unit (4) and the damping layer (6).

Description

The invention relates to a flow measuring device for measuring a flow rate of a fluid flowing in a pipe in a main flow direction.

In order to determine the flow rate of the fluid in the conduit, preferably a tube, there are, besides various physical principles, the use of sound waves emitted into the conduit. Here, so-called clamp-on flow measuring devices are used in which so-called clamp-on transducers are stretched on the fluid-carrying tubes.

The quality of the measurement depends largely on the quality of a coupling of the waves from the transducer into the pipe wall.

A basic construction of such a clamp-on measuring device is in the documents US 3,869,915 . US 3,987,674 or US 4,373,401 according to the preamble of claim 1.

It is an object of the invention to improve a flow measuring device according to the preamble of claim 1 such that an increased measurement quality of the flow rate of the fluid is allowable.

This object is achieved by a flow measuring device with the features of claim 1.

The flow measuring device for measuring a flow rate of a fluid flowing in a line in a main flow direction comprises at least one ultrasonic device for emitting and / or receiving ultrasonic waves comprising a transducer unit for generating and / or receiving the ultrasonic waves and a transmission unit for transmitting the ultrasonic waves Ultrasonic waves on the line, and is fixed by means of the transmission unit to an outer side of a wall of the conduit, wherein the transmission unit on a line opposite side of a 3D structure, wherein in the 3D structure of the transmission unit provided on one side of a damping layer 3D counter-structure can be used, so that there is a positive contact surface between the transfer unit and the damping layer.

This makes it advantageous that excitation of desired waves in the outer wall of the high quality conduit is possible, i. E. the excitation of unwanted wave components is avoided constructively.

According to a preferred embodiment, the 3D structure and the 3D counter-structure are formed in such a form-fitting manner to each other, so that there is a material and / or non-positive connection between the transmission unit and the damping layer at the contact surface.

According to a further preferred embodiment, the 3D structure and the 3D counter-structure are comb-like, honeycomb-like or pyramid-like. This results in the advantages that no disturbing reflections occur at the boundary layer of the transmission unit damping layer and the transmission unit and the damping layer can still be produced by means of simple and efficient production technologies.

According to another preferred embodiment, the transducer unit comprises a piezoelectric transducer and the transmission unit comprises a wedge.

According to a further preferred embodiment, the damping layer is formed from an elastomer filled with particles of high-density metals.

According to a further preferred embodiment, the transmission unit has two corners on a side adjacent to the line, the corners each having an angle of less than 180 ° and greater than 90 °.

According to another preferred embodiment, the angle closer to the transducer unit is smaller than the angle further from the transducer unit.

Preferred embodiments and further developments and further advantages of the invention can be taken from the subclaims, the following description and the drawings.

In the following the invention will be explained in detail by means of embodiments with reference to the drawing. In the drawing show:

1 a schematic representation of a known flow measuring device;

2 a schematic representation of an ultrasonic device according to the invention;

3 a schematic representation of an embodiment of a transmission unit according to the invention;

4 a schematic representation of another embodiment of a transmission unit according to the invention.

In the 1 is a known flow measuring device 1 schematically illustrated, which is attached to an outer side of a wall of a conduit L, in which a fluid F flows in a main flow direction. The line L is preferably a tube with a defined wall thickness.

The flowmeter 1 includes at least one ultrasonic device 2 , which is provided for emitting and / or receiving ultrasonic waves.

In the illustrated flowmeter 1 are two ultrasonic devices 2 provided, which are arranged in the flow direction of the fluid F obliquely opposite to the outer sides of the walls of the conduit L. This allows an ultrasonic device 2 as transmitter and the other ultrasonic device 2 act as a recipient.

The ultrasound device 2 has a transducer unit 3 for generating and / or receiving the ultrasonic waves and a transmission unit 4 for transmitting the ultrasonic waves to the line L. The converter unit 3 includes a piezoelectric transducer that generates and / or receives the ultrasonic waves, the ultrasonic waves being transmitted across the line L and the fluid F to determine the flow rate of the fluid.

On one side is the transducer unit 3 to the transmission unit 4 attached. On the other side of the converter unit 3 is a damping element 5 provided that disturbances on the transducer unit 3 should minimize.

For coupling or transmitting the ultrasonic waves from the transducer unit 3 on line L is the transmission unit 4 , in particular in the form of a fitting wedge, attached to the outside of the wall of the conduit L.

On a side of the transmission unit opposite the line L. 4 is a cushioning layer 6 intended.

Like in the 2 is shown, the ultrasonic device according to the invention 2 shown in more detail.

In this case according to the invention, the transmission unit 4 on a line L opposite side of a 3D structure 7 on. The 3D structure 7 runs along the entire side of the transmission unit 4 , so that slant into the 3D structure 7 incoming waves are damped.

3D structure is, according to the invention, a three-dimensional shape of an outer surface of the transfer unit 4 , so the 3D structure 7 or the outer surface of the transfer unit 4 comb-like, honeycomb-like or pyramid-like.

The damping layer 6 has one on the the transfer unit 4 facing side 3D counter structure 8th on that in the 3d structure 7 the transmission unit 4 can be used, so that a positive contact surface between the transfer unit 4 and the cushioning layer 6 results.

It is advantageous that the 3D structure 7 the transmission unit 4 and the 3D counter structure 8th the damping layer 6 are formed such a form-fitting to each other, so that there is a material and / or non-positive connection between the transmission unit 4 and the cushioning layer 6 results.

When assembling the transmission unit 4 and the cushioning layer 6 or engaging the 3D structure 7 the transmission unit 4 and the 3D counter structure 8th the damping layer 6 a single body is formed so that a majority of the ultrasonic waves generated by the transmission unit 4 transmitted to the line L and disturbing proportions of ultrasonic waves by diffusion, absorption and reflection in the 3D structure 7 and 3D counterstructure 8th be minimized.

Furthermore, the 3D structure 7 opposite and provided for concern to the line L side of the transmission unit 4 not completely planar or completely flat, but has two inclinations, so that the transmission unit 4 on this page two corners 9a . 9b having.

The corners 9a . 9b each include an angle α, β less than 180 ° and greater than 90 °.

The angles α, β are designed so that the angle α, which is closer to the transducer unit 3 is smaller than the angle β, which is further from the transducer unit 3 located. As a result, one leg in each case is the angle α, β in the direction of the 3D structure 7 and 3D counterstructure 8th directed, so that the disturbing portions of ultrasonic waves do not affect the contact surface between the transmission unit 4 and the line L, but specifically to the 3D structure 7 and 3D counterstructure 8th and thus to the damping layer 6 be reflected where they are absorbed and scattered. Advantageously, the damping layer 6 formed from an elastomer filled with particles of high-density metals.

In the 3 and 4 are each preferred embodiments of the invention transmission unit 4 and the corresponding 3D structure 7 shown schematically.

The 3D structure 7 is in the 3 formed like a comb. The 3D counter structure, not shown 8th at the cushioning layer 6 is designed accordingly opposite. A fabrication of the comb-like 3D structure 7 or 3D counterstructure 8th is technically easy to do.

The production of in the 4 shown pyramidal 3D structure 7 is compared to the comb-like 3D structure 7 technically more difficult, but the reduction effect of the disturbing portions of ultrasonic waves through the pyramidal 3D structure 7 opposite the comb-like 3D structure 7 much larger, so that an even more accurate determination of the flow rate would be achieved.

The non-illustrated honeycomb execution of the 3D structure 7 provides a solution between the comb-like and pyramid-like 3D structure 7 represents.

LIST OF REFERENCE NUMBERS

1

Flow measurement device

2

ultrasonic device

3

converter unit

4

transmission unit

5

damping element

6

damping layer

7

3D structure

8th

3D mating structure

9a, 9b

corners

F

fluid

L

management

α, β

angle

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 3869915 [0004]
• US 3987674 [0004]
• US 4373401 [0004]

Claims (7)

Flow measuring device ( 1 ) for measuring a flow rate of a fluid (F) flowing in a line (L) in a main flow direction, comprising at least one ultrasonic device ( 2 ) for emitting and / or receiving ultrasonic waves, wherein the ultrasonic device ( 2 ) a transducer unit ( 3 ) for generating and / or receiving the ultrasonic waves and a transmission unit ( 4 ) for transmitting the ultrasonic waves to the line (L), and wherein the ultrasonic device ( 2 ) by means of the transmission unit ( 4 ) is attached to an outer side of a wall of the conduit (L), characterized in that the transmission unit ( 4 ) on a line (L) opposite side of a 3D structure ( 7 ), wherein in the 3D structure ( 7 ) of the transmission unit ( 4 ) one on one side of a cushioning layer ( 6 ) provided 3D counter-structure ( 8th ) can be used so that a positive contact surface between the transmission unit ( 4 ) and the damping layer ( 6 ). Flow measuring device ( 1 ) according to claim 1, characterized in that the 3D structure ( 7 ) and the 3D counter structure ( 8th ) are formed so positively to one another, so that a material and / or non-positive connection between the transmission unit ( 4 ) and the damping layer ( 6 ) at the contact surface. Flow measuring device ( 1 ) according to claim 1 or 2, characterized in that the 3D structure ( 7 ) and the 3D counter structure ( 8th ) are comb-like, honeycomb-like or pyramid-shaped. Flow measuring device ( 1 ) according to one of the preceding claims, characterized in that the transducer unit ( 3 ) a piezoelectric transducer and the transmission unit ( 4 ) comprise a wedge. Flow measuring device ( 1 ) according to one of the preceding claims, characterized in that the damping layer ( 6 ) is formed from a filled with particles of high-density metals elastomer. Flow measuring device ( 1 ) according to one of the preceding claims, characterized in that the transmission unit ( 4 ) on a side adjacent to the line (L) two corners ( 9a . 9b ), wherein the corners ( 9a . 9b ) each comprise an angle (α, β) less than 180 ° and greater than 90 °. Flow measuring device ( 1 ) according to claim 6, characterized in that the closer to the transducer unit ( 3 ) angle (α) smaller than that further from the transducer unit ( 3 ) is the angle (β).

Images