DE102008027367A1 - Device for measuring the ultrasound emission of ultrasound devices - Google Patents

Abstract

A device for measuring the ultrasound emission of ultrasound devices, in particular of ultrasound therapy devices, wherein a piezoelectric element is arranged in the device, is characterized in that the device has a measuring pot, which provides for receiving a coupling medium that the piezoelectric element in the bottom region of the measuring pot is arranged and that the measuring pot has a positioning device for positionally accurate recording of the ultrasound device relative to the piezoelectric element.

Description

The The invention relates to a device for measuring the ultrasound emission of ultrasound devices, eg. From medical ultrasound therapy transducers, wherein a piezoelectric element is arranged in the device is.

at The ultrasound therapy is a procedure which for therapy and partly for pain treatment in different Indications is used. Ultrasound creates an internal tissue massage, the the basal metabolism, the blood circulation and a better Promotes oxygenation. Therefore, ultrasound becomes common for the treatment of arthrosis, arthritis, spinal syndromes, Myogeloses, achillodynia, heel spurs and other ailments used. The piezo-technically generated ultrasonic vibrations are over delivered a transducer to the human tissue. In the human Tissue then becomes heat via molecular vibrations produces an increased blood circulation and thus a accelerated healing effect. Ultrasound Therapy Equipment are used in rehabilitation and are an integral part every physiotherapy practice, orthopedic practice and orthopedics hospital department. The ultrasound heads currently in use work in the Order of magnitude of 1 MHz to 3 MHz and with output powers in the order of 5 to 50 watts. A target The invention is a device for periodic verification of such To provide ultrasound equipment with which also measured the output power of the transducers and can be evaluated.

An initially mentioned device is z. B. from the DE 41 19 147 A1 known. In the disclosed there detection device for ultrasound transducer used in the medical field, a piezoelectric vibrator is arranged, which is connected at its receiving side surface with a tapered lead body and which is electrically connected to a receiver circuit, in turn, a detection unit, for. B. a light emitting diode or a buzzer is connected downstream. The front region of this detection device is brought into direct contact with the active surface of a transducer to be tested of the ultrasound device with the interposition of a coupling agent, such as oil or gel.

Of the Invention is based on the object, a device of the above mentioned type, with the most reliable and reproducible results can be achieved.

The Solution to this problem is done with a device with the features of claim 1. Advantageous developments The invention are described in the subclaims.

at a device for measuring the ultrasound emission of ultrasound devices, in particular of medical ultrasound therapy transducers, wherein a piezoelectric element is arranged in the device is, is provided according to the invention, that the Device has a measuring pot, which is provided for receiving a coupling medium is that the piezoelectric element in the bottom region of Measuring pot is arranged, and that the measuring pot a positioning for positionally accurate recording of the ultrasound device to be measured opposite to the piezoelectric element. With Such a device will be a precise and reproducible Measurement of ultrasound equipment allows.

In A preferred embodiment of the invention is the coupling medium liquid, especially water. The measuring pot is therefore preferred designed so that in this the liquid medium can be included. The device is therefore preferred a footprint and is formed overall such that the measuring pot attached to the footprint on Device has a horizontal upper orientation and the device to be measured can be inserted from above into the measuring pot is. The positioning device is preferably designed such that the ultrasound device to be measured with a Ultrasonic radiating area positioned within the measuring pot is. This is especially important for the ultrasound radiating Range is detected by the coupling medium. The positioning device preferably has two positioning elements. There is a positioning element arranged adjacent to the piezoelectric element. This is special as a disc-shaped spacer with central receiving hole educated. Alternatively to the disc-shaped spacer can also use spacer balls or spacers on the Bottom of the measuring pot are arranged, on which the measured Ultrasound device rests.

One second positioning element is preferably close to the open end region arranged the measuring pot and is preferably as a lid with a formed central guide hole.

Overall, the positioning device is preferably designed so that the sound-emitting side of the transducer parallel to the piezoelectric element and at a distance of about 2 to 20 millimeters, preferably 3 to 15 millimeters, in particular 4 to 10 millimeters and more preferably at a distance of 5 to 7 Millimeter is arranged. Preferably, the positioning is interchangeable and in particular preferably the first and the second positioning element interchangeable, so that un Different ultrasonic devices of different makes and with different dimensions can be measured with the device.

The Piezoelectric element is preferably part of a measuring cell. there the piezoelectric element is preferably one-sided in the measuring cell fixed. Alternatively, the piezoelectric element via lateral connections freely suspended in the measuring cell become. However, the attachment fixed on one side is preferred within the measuring cell, so that the expansion direction essentially specified and tolerances are narrowed, thus minimizing sources of error and the reproducibility of the results is increased. The measuring cell is preferably detachable or exchangeable in the Measuring pot arranged so that the piezoelectric element with the entire measuring cell is interchangeable.

In A preferred embodiment of the invention is the invention associated with an evaluation electronics, with which the measurement data, the exist in the form of voltage signals, recorded and evaluated become. The detection or evaluation is done via a Microcontroller. The processed voltage signals are over a display is displayed as power end values.

following We continue the invention with reference to an embodiment shown in the drawing explained. In detail, the schematic representations in:

1 : A plan view of a measuring pot according to the invention with arranged in the bottom region piezoelectric element.

2 a plan view of a measuring pot with inserted therein positioning device;

3 Three different examples of a first positioning of the positioning;

4 : an example of a second positioning element of the positioning device.

In 1 is a device 1 with a measuring pot 2 shown. The measuring pot 2 has a floor area 3 and walls extending substantially perpendicularly from the floor area 4 on. The measuring pot 2 is formed circular or cylindrical with bottom and forms a vessel for receiving a coupling medium, in particular a liquid. The vessel may also have other shapes, eg. B. be angular. In the area of the soil 3 of the measuring pot 2 is centrally a circular piezoelectric element 5 , which is also referred to as quartz crystal arranged. This is preferably part of a measuring cell. In the embodiment shown here is the piezoelectric element with an adhesive surface 6 directly on the ground 3 attached. The electrical contacting takes place here with a Lötkontaktierung 7 , About the cable 8th an evaluation and control unit is connected, with which the voltage signals of the piezoelectric element 5 recorded, evaluated and displayed.

In 2 is a plan view of the measuring pot according to the invention shown in the here additionally the positioning device is arranged, which in the embodiment shown from a first, ground-level element 10 , which is designed here as a spacer plate, and a second positioning element 11 exists at the open end of the measuring pot 2 is arranged and pictured here 7 is designed as a lid with a central guide hole. The device to be measured is determined by the positioning elements 10 and 11 In a precise position to the quartz crystal 5 In particular, a front radiation surface with a defined distance and parallel to the quartz crystal is positioned 5 positioned.

Through in 3 illustrated positioning elements 10 , which are exemplified as spacer plates of different thickness, the distance between the transducer of the device to be measured and the piezoelectric element 5 be selected defined. Depending on the intensity of the transducer, ie the output power of the ultrasound therapy device, the distance between the transducer and the piezoelectric element 5 by selecting a spacer plate 10 with a certain thickness, ie by the first positioning element 10 be enlarged or reduced. The combination of the first positioning element 10 with the second positioning element 11 At the same time, this allows compliance with the parallelism of the transducer to the piezoelectric element 5 ,

In 4 is a view of the second positioning element 11 given alone. By variation of the second positioning element 11 , Especially by changing the central receiving opening, the measuring pot 2 be adapted to a variety of ultrasound equipment to be tested with little effort.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 4119147 A1 [0003]

Claims (12)

Device for measuring the ultrasound emission of ultrasound devices, in particular ultrasound therapy transducers, in which device a piezoelectric element ( 5 ), characterized in that the device comprises a measuring pot ( 2 ), which is provided for receiving a coupling medium, that the piezoelectric element ( 5 ) in the ground area ( 3 ) of the measuring pot ( 2 ), and that the measuring pot ( 2 ) a positioning device ( 10 . 11 ) for positionally accurate recording of the ultrasound device relative to the piezoelectric element ( 5 ) having. Device according to claim 1, characterized in that that the coupling medium is liquid, in particular Water is. Device according to one of claims 1 or 2, characterized in that the positioning device is designed such that the ultrasound device to be measured with its ultrasound emitting area, in particular the transducer, within the measuring pot ( 2 ) is positioned. Device according to one of the preceding claims, characterized in that the positioning device comprises two positioning elements ( 10 . 11 ) having. Device according to claim 4, characterized in that a positioning element ( 10 ) adjacent to the piezoelectric element ( 5 ) is arranged and in particular formed as a disk-shaped spacer with central receiving hole. Device according to one of claims 4 or 5, characterized in that a second positioning element ( 11 ) near the open end of the measuring pot ( 2 ) is arranged and in particular is designed as a cover with a central guide hole. Device according to one of the preceding claims, characterized in that the positioning device is designed such that the ultrasound device, in particular the transducer parallel to the piezoelectric element ( 5 ) and at a distance of 3 to 20 millimeters, in particular 3 to 15 millimeters, 4 to 10 millimeters and in particular 5 to 7 millimeters distance to this is arranged. Device according to one of the preceding claims, characterized in that the positioning device, in particular the first and the second positioning element ( 10 . 11 ) are interchangeable. Device according to one of the preceding claims, characterized in that the piezoelectric element ( 5 ) Is part of a measuring cell. Device according to claim 9, characterized in that that the measuring cell is interchangeable. Device according to one of the preceding claims, characterized in that the piezoelectric element ( 5 ) on one side in the measuring pot ( 2 ), in particular in the measuring cell, is fixed. Device according to one of the preceding claims, characterized in that the device is an electronics is associated with the operation and evaluation of the device.