DE19608930A1 - Determining density of homogeneous material and surface density distribution of inhomogeneous material - Google Patents

Abstract

The method compares the quality of the transmitted ultrasound (7) with the received ultrasound, reflected (11) at the material. The amplitude of the ultrasound serves as the characteristic value for the comparison of the quality of the transmitted to the received ultrasound. The intensity of the ultrasound serves as the characteristic value for the comparison of the quality of the transmitted to the received ultrasound. The system for carrying out the method includes at least one ultrasonic transmitting element (6) and at least one receiving element (12). The two elements are ultrasonic linear arrays.

Description

State of the art

The invention is based on a method for determination the density of substances and a device for Implementation of the method according to the genus of Main claim as well as the secondary claim. Procedure and Devices for determining the density of substances are in known in many ways.

For example, there are methods and devices through measuring the weight of a known volume on the Close fabric density. Other methods measure that Buoyancy of solid bodies by weighing both in the Air as well as liquid. Procedures and are also known Devices that take advantage of centrifugal effects Material properties and therefore also the density of substances determine.

All these processes have the disadvantage that a Density distribution on the surface of the object to be examined Substance can not be determined. Problems with the Conventional methods occur particularly inhomogeneous Fabrics on. It can only be an average of  Consistency can be determined. But especially in medicine, diagnostics, laboratory technology, production monitoring and the like alludes to the determination of the density distribution a superordinate to the surface of an inhomogeneous substance Role.

The invention and its advantages

The inventive method with the characteristic Features of the main claim and the invention Device for performing the method with the has characteristic features of the subsidiary claim on the other hand the advantage that by means of ultrasound on simple Way the density distribution on a defined surface of a inhomogeneous substance, as well as the density of a homogeneous substance can be determined. The procedure makes it Property of ultrasound take advantage of that ultrasound Interfaces of different acoustic impedance are reflected becomes. Depending on the angle at which the wavefront is on the interface with impedance jump becomes a certain Part of the ultrasound is transmitted, the remaining part is reflected. The ultrasound hits under a certain Angle to the interface, the angle of total reflection, the wavefront hitting the interface becomes total reflected, d. H. a transmission of the wave takes place in the fabric not instead. Now the fabric is at different angles sonicated, and the reflected ultrasound received, so can from the comparison of the quality of the sent and received ultrasound the angle of total reflection determine. To assess the quality of the received Wave characteristics such as amplitude, intensity, Use the speed of sound and its dependent sizes. Furthermore, the ratio of the received and sent sound the reflection factor of the sound wave at the Interface determined. From the reflection factor and the  Angle of total reflection can be the density of homogeneous or the density distribution on the surface of inhomogeneous Determine substances.

The device also has the advantage that hemispherical radiation pattern of the transmission elements Transmitter not in a special angular position to the fabric have to be brought. By controlling the for Transmitting element symmetrical with respect to the measuring point Receiver element on the receiver array is achieved that the angle of incidence of a wavefront hitting the material by controlling or measuring the corresponding to Measuring point symmetrical receiver element equal to that Angle of reflection is.

According to an advantageous embodiment of the invention serves as Parameter for the comparison of the quality of the sent Ultrasound to the received ultrasound the amplitude of the Ultrasound.

According to a further advantageous embodiment of the invention serves as a parameter for comparing the quality of the transmitted ultrasound to the received ultrasound Intensity of ultrasound.

According to an advantageous device Embodiment of the invention, the sending element Single element and the receiver element linear arrays, where the element is largely hemispherical Has radiation characteristics. Such a device has the advantage that only one transmission element has to be controlled, and that practically all the transmission elements at the same time can receive reflected sound wave. At this Device is not measured in one measuring point, but rather across a spatial extent of the surface. By moving the ultrasound unit and comparing the  each received signal can be the density of the sampled Medium are calculated.

According to a further advantageous embodiment of the invention the transmission element has a narrowly limited Directional radiation characteristic, with the single element pivots at changeable angles. Such Device has the advantage that the transmission element is targeted in a specific one that can be changed by swiveling the element Direction sends.

According to a further advantageous embodiment of the invention are the transmitter elements and the receiver elements radial Arrays, where the elements have a narrow radiation pattern have and transmitter and receiver elements symmetrical be controlled to the plumb line above the measuring point. Such Device has the advantage that the path of ultrasound from Sender to the substance, as well as the reflected portion from the substance to the Receiver is the same length. A path correction calculation based on distances of different lengths covered by ultrasound not applicable.

According to a further advantageous embodiment of the invention the sending element as well as the receiving element is on Single element, the transmitting element being a narrowly limited one Has radiation characteristics and transmit and Receiver element concentric around and symmetrical with Move the same angular position to the perpendicular over the measuring point. At This device becomes the receiver and transmitter element pivoted, so that the transmitting element at different angles ultrasound on the surface of the Substance and the receiver element symmetrically to it d. H. with the same angular position to the perpendicular above the measuring point as the transmitting element receives the reflected ultrasound. A such arrangement has the advantage that only two elements are needed. Furthermore, the sound also sets independently here  from the angular position of the transmitter or the receiver in each case the same distance back. A path correction calculation is not necessary.

According to a further advantageous embodiment of the invention device or fabric are movable relative to each other. This has the advantage that surface segments are scanned successively and the density can be determined.

All of the above versions are with single transducers equipped that can be swiveled linearly or radially can be moved directionally.

Further advantages and advantageous configurations of the Invention are the following description, the drawing and removable from the claims.

drawing

Two embodiments of the subject of the invention are shown in the drawing and in more detail below described. Show it:

Fig. 1 Schematic representation of the method with linear arrays with transmitter and receiver elements in side view;

Fig. 2 Schematic representation of the method with radial arrays with transmitter and receiver elements in side view.

Description of the embodiment

In Fig. 1, the ultrasonic transmitter 1 and the ultrasonic receiver 2 are each shown as a linear array in a side view.

Here, the transmitter and receiver unit can be designed as one component, the double function of an element as a transmitter. and receiving element is also conceivable. The transmission elements 6 of the transmitter 1 have an almost hemispherical radiation characteristic 7 . The defined surface 3 of the substance 4 to be examined is shown parallel to the arrays. Transmitter 1 , receiver 2 and fabric surface 3 are in contact with each other through a coupling medium 5 , the properties of which are known.

In order to determine the density of the substance 4 , a transmitter element 6 on the transmitter array 1 is now controlled via the control and monitoring unit 8 . The transmitting element sends a sound wave in the direction of fabric 4 . The wave is reflected on the fabric surface 3 . Depending on the angle 9 at which the perpendicular of the wavefront tangent hits the material in FIG. 14 , the quality of the ultrasound 11 reflected on the surface 3 changes. The reflected wave 11 is received by driving the receiver element 12 which is symmetrical to the transmission element 6 at the solder 13 in the measuring point 14 . This ensures that measurements are taken at a defined measuring point 14 (angle of incidence of the transmitted ultrasound angle of the reflected ultrasound). The control and control unit stores and evaluates the received signals. In particular, the quality of the transmitted signal is compared with that of the received signal. The process described is now repeated on the same measuring point using other transmission and receiver elements which are symmetrical to one another perpendicular to the measuring point 14 . By comparing the various received reflected sound waves, the control and control unit 8 determines the angle of the total reflection of the substance combination 5 - 4 in the measuring point 14 . Correction calculations may be necessary, in particular due to the different distances traveled by the sound waves. Furthermore, the reflection factor can be determined from the recorded data, in particular by driving the transmitting element directly above the measuring point and by receiving the reflected sound wave through the same element. The control and control unit 8 determines the density of the substance in the measuring point 14 from the reflection factor and the angle of the total reflection.

By moving the fabric relative to the device and it is possible to repeat the process described Distribution of density on the surface of the object to be examined To determine the substance.

In FIG. 2, the ultrasonic transmitter 1 and the ultrasonic receiver 2 are each represented as a radial array in side view. Here, the transmitter and receiver unit can be designed as one component, as in FIG. 1. The transmission elements 6 of the transmitter 1 have a narrow radiation characteristic.

The defined surface 3 of the substance 4 to be examined is located below the radial arrays shown in section in the shape of a hemisphere. Transmitter 1 , receiver 2 and fabric surface 3 are in contact with each other through a coupling medium 5 , the properties of which are known.

The process for determining the density distribution on the surface 3 of the substance 4 largely corresponds to that explained in FIG. 1. Here, too, transmission elements 6 and associated reception elements, symmetrical to the lot 13 above the measuring point 14 , are controlled by the control and monitoring unit 8 . An advantage of this arrangement is that path correction calculations do not have to be carried out; the length of the path traveled by the ultrasound from the differently controllable transmitter elements to the receiver elements is always the same as a result of the use of radial arrays.

All in the description, the following claims and The features shown in the drawing can be both individually as well as being essential to the invention in combination with one another.

Reference list

1 ultrasound transmitter
2 ultrasound receivers
3 fabric surface
4 fabric
5 coupling medium
6 transmission element
7 Transmitted ultrasound wavefront
8 control and monitoring unit
9 angle of incidence
10th
11 Reflected ultrasonic wave front
12 receiver element
13 Lot over measuring point
14 measuring point

Claims (9)

1. A method for determining the density of homogeneous substances and for determining the surface density distribution of inhomogeneous substances, characterized by the use of ultrasound and by comparing the quality of the transmitted ultrasound ( 7 ) with the ultrasound reflected on the substance ( 11 ). 2. The method according to claim 1, characterized in that as a parameter for comparing the quality of the broadcast the amplitude of the received ultrasound Ultrasound is used. 3. The method according to claim 1, characterized in that as a parameter for comparing the quality of the broadcast  the intensity of the received ultrasound Ultrasound is used. 4. Device for performing the method, in particular according to one of the preceding claims,
with at least one ultrasound transmission element and
characterized by at least one ultrasound receiver element ( 12 ),
that transmitter and receiver elements are ultrasound linear arrays,
that the transmission elements have a largely hemispherical radiation characteristic and
that transmitter and receiver elements are controlled symmetrically to the plumb bob ( 13 ) above the measuring point ( 14 ). 5. The device according to claim 4, characterized in
that the transmitting element is a single element and the receiver elements are linear arrays and
that the transmitting element has a largely hemispherical radiation characteristic. 6. The device according to claim 5, characterized in that the transmission element is a narrowly limited Has radiation characteristics and that the single element is pivotable under changeable Sends angles. 7. The device according to claim 4, characterized in
that transmitter elements and receiver elements are radial arrays,
that the transmission elements have a narrow radiation characteristic and
that transmitter and receiver elements are controlled symmetrically to the plumb bob ( 13 ) above the measuring point ( 14 ). 8. The device according to claim 4, characterized in
that the transmitting element and the receiving element are individual elements,
that the transmitting element has a narrowly limited directional radiation characteristic,
that the transmitter and receiver element move concentrically around and symmetrically with the same angular position to the perpendicular above the measuring point. 9. The device according to claim 4 to 8, characterized in that device or fabric is movable relative to each other are.