DE4135286C1 - Outer ear hearing passage and=or lug measurer - uses insertable vessel fillable with liq. to register individual shape for insertable housing of hearing aid - Google Patents

Abstract

The shape of the ear cavity is accurately measured to allow a hearing aid plug to be produced. A measuring probe (1) is located at the tip of a catheter (3) inserted through a flexible plastics material container (4). The container is filled with water (5) under gravitational pressure provided by a header tank (10). The water pressure causes the plastics material to expand against the surface of the ear. The measuring probe is coupled to a signal measuring stage (26) to provide data entered into a memory (28). At each position the distance (27) to the surface is measured. ADVANTAGE - Allows ear cavity curves to be accurately and completely measured.

Description

The present invention relates to a device for measuring the external ear canal and / or the auricle to determine the individual shape of one in the ear settable hearing aid housing.

From EP-A-03 98 237 an optical device for ver measure the interior of the ear. The known device works with laser light. Here are the optical device and the laser light source is arranged outside the ear. There especially the outer ear canal (lumen) of the ear curvatures has bulges on or in the ear behind the like curvatures are not detected by the laser light and consequently not be measured. Furthermore instructs Ear often a hair on the optical ver measurement is at least disruptive and leads to incorrect measurement data can lead. For the production of precisely fitting in or wearable hearing aid housings and / or earmolds exact and complete measurement data are required.

From DE-OS 23 05 501 is in the body of a patient ten insertable ultrasound probe known that an Ultra sound transmission / reception system for area-wise sampling (Er generation of longitudinal sectional images) of internal organs points. For this purpose, the ultrasound probe is in a rigid son arranged in the longitudinal direction of the tube and works alternately as transmitter and receiver.

From US 50 44 373 a device for measuring Sound pressure levels in the outer auditory canal of a person's ear  son in connection with the fitting of a hearing aid knows. For this purpose, a measuring sensor is up to predeterminable depths Can be inserted directly into the outer ear canal. To the one depth to be determined are at the ear end of the measurement sensor means for sending and receiving light arranges. The time difference until the drum arrives reflected light is queried.

From US 48 09 708 a device for determining the Sensitivity of the patient to a predefinable sound pressure on the eardrum known. There is little to that at least a hollow, tubular and open ear measurement probe in the open or closed by an earmold its outer ear canal can be inserted immediately. There is a sound penetrating into the ear canal Reflection on the eardrum through the hollow sensor directed to a measurement microphone at the other end.

From DE-U 77 39 588 a device for determining the inner and outer borders (inner and outer diameter) known from vessels or from organs interspersed with vessels. For this purpose, piezo crystals are on the circumference of a catheter probe Ultrasonic transmitters and receivers arranged in radial Direction are effective. In the area of the at the catheter circumference brought piezo crystals is the catheter probe of one with Liquid inflatable and stretchable balloon ring-shaped vice ben. The ring-shaped balloon lies against the inner wall of the Vessels. The balloon is not in relation to the measurement displaceable.

The invention has for its object a device type mentioned at the beginning, with the bulges of an Oh res can be measured accurately and completely.  

This object is achieved by a device according to claim 1 solves. A major advantage of the invention is that the liquid-filled provided according to the invention Container on the one hand an existing hair, for. B. on the outside Ren auditory canal of the ear, pushes aside and on the other hand also until curvatures can be brought up behind the curvatures of the  outer ear canal. If now according to the invention in this If a probe is inserted, all bulges can an outer ear, e.g. B. in the outer auditory canal, completely and be measured without errors, especially if the measurement radial or perpendicular to the direction of insertion of the measuring probe he follows. The Er is suitable for measurement in training especially a measurement working with ultrasonic waves probe used as a miniature ultrasonic transducer (ultrasonic head) is trained.

Further advantages and details of the invention emerge from the following description of an exemplary embodiment les based on the drawing and in connection with the claims.

The figure shows a basic arrangement of a fiction according device.

The device shown in the invention has a measuring probe 1 , the z. B. is arranged on the head part 2 of a catheter 3 . The measuring probe 1 is inserted into a container 4 and held slidably therein. The container 4 is filled with a liquid 5 , preferably water. The container ter 4 can be at least partially inserted into the outer auditory canal 6 , which represents a curved area of the ear. The container 4 is preferably made of highly flexible plastic and both by the liquid and by a curved area on the ear, for. B. by the curved outer ear canal, deformable. The adaptation of the easily deformable and highly flexible casing of the container 4 to the curvature and curvature of the ear, in particular the outer auditory canal 6 , can be achieved by the pressure generated by the weight of the liquid 5 . This is achieved primarily when the auditory canal is approximately vertical and the ear is in a suitable position.

In an embodiment of the invention, the container 4 is connected to a pressure regulating device 7 , in particular when the auditory canal is approximately horizontal (as shown). The pressure regulation device 7 can consist of a first tube 8 and a second tube 9 , which are slidably arranged. The second tube 9 may have a z. B. have bowl-shaped extension 10 . The liquid pressure in the container 4 can stand by moving the two pipes 8 and 9 into each other and through the liquid, for. B. in the bowl-shaped extension 10 can be varied in a simple manner. If the catheter 3 is displaced in the direction of a double arrow 11 in the container 4 during the measurement of the auditory canal 6 with the measuring probe 1 , there is a change in the liquid volume in the container 4 . This can cause a change in pressure in the container 4 . Such a change in pressure can be almost completely eliminated by the bowl-shaped extension 10 on the tube 9 , because the liquid displacement when the catheter 3 is inserted into the container 4 has almost no change in the height of the liquid level in the bowl-shaped extension 10 , due to the large volume of this extension 10 , causes.

The container 4 has an opening 12 at one end. The device according to the invention has a base part 13 with an opening 14 . The container 4 is held with its opening 12 on or in the opening 14 on the base part 3 . Here, the opening 14 corresponds to the base part 13 with the opening 12 on the container 4 , so that as a result both openings 12 and 14 appear as a common opening. This allows both openings with only one closure 15 , for. B. a stopper, be sealed liquid-tight. The shell of the container 4 in the region of the opening 12 is pressed by the closure 15 to the edge of the opening 14 in the base part 13 . The tube 8 and the catheter 3 can be sealingly passed through the closure 15 .

According to a further embodiment of the invention, the base part 13 has supports 16 and 17 with which the base part 13 can be supported outside the ear or the auricle 18 against an adjacent skull area 19 and 20 . In particular, three supports can be arranged on the base part 13 . The distance between the base part 13 and the skull or the ear cup 8 is adjustable by means of clamping screws 21 and 22 , which lock the supports 16 and 17 .

The catheter 3 can be held in a further embodiment of the invention in a guide device 23 and introduced with the help of a scale 24 in a measurable manner in the ter ter 4 via the closure 15 . The guide device 23 is preferably held on the base part 13 . The catheter 3 can be connected to a measuring device 26 via a cable 25 .

The measuring device 26 can, according to an advantageous further development of the invention, emit an electrical ultrasonic frequency to the measuring probe 1 , which is converted into ultrasonic waves in the measuring probe 1 and emitted in the direction of an arrow 27 . The ultrasonic waves are preferably emitted perpendicular to the direction of movement (double arrow 11 ) of the measuring probe 1 . From the measuring probe 1 received reflections of the abge emitted ultrasound signal are then recorded and z as a converted electrical signal. B. the measuring device 26 via the cable 25 for processing.

The data processed in the measuring device 26 can be fed to a data storage device 28 . Furthermore, the data storage device 28 can have data on the penetration depth of the measuring probe 1 into the container 4 , for. B. from the guide device 23 or from the scale 24 , are supplied. The measurement data collected in the data storage device 28 can be used after the completion of the measurement for the production of a customer-specific and precisely fitting hearing aid housing or ear adapter.

The data on the depth of penetration of the measuring probe 1 in the container ter 4 or in the auditory canal 6 can also be obtained via a local sensor. The introduction of the catheter in the loading container 4 , z. B. with the guide device 23 , can be done mo toric.

Claims (10)

1. Device for measuring the external auditory canal ( 6 ) and / or the pinna to determine the individual shape of a hearing aid housing that can be inserted into the ear, a container ( 4 ) which can be filled with a liquid ( 5 ) being provided, which is at least partially in the Ear canal ( 6 ) can be used and can be deformed by the liquid filling in accordance with the curvatures of the ear canal, and a measuring probe ( 1 ) can be inserted into the container ( 4 ). 2. Device according to claim 1, wherein the measuring probe ( 1 ) is designed as an ultrasonic measuring probe and is arranged on the head part ( 2 ) of a catheter ( 3 ) held on the device. 3. The device according to claim 1, wherein the container ( 4 ) consists of a sleeve made of flexible plastic, which has an opening ( 12 ) at one end. 4. Device according to one of claims 1 to 3, which has a Ba sisteil ( 13 ) with an opening ( 14 ) on which the container ( 4 ) is held. 5. The device according to claim 4, wherein the container ( 4 ) with its opening ( 12 ) having the end in the opening ( 14 ) of the base part ( 13 ) is kept liquid-tight. 6. The device according to claim 4 or 5, wherein the base part ( 13 ) has supports ( 16 , 17 ) with which the base part ( 13 ) can be supported outside the ear against an adjacent skull area ( 19 , 20 ). 7. Device according to one of claims 4 to 6, wherein the opening ( 14 ) of the base part ( 13 ) by a closure ( 15 ) can be closed liquid-tight and via this closure ( 15 ) the measuring probe ( 1 ) by means of a guide device ( 23 ) in the container ( 4 ) can be inserted. 8. The device according to claim 7, wherein the guide device ( 23 ) comprises at least parts of a measuring device ( 26 ) for measuring the insertion depth (measuring position) of the measuring probe ( 1 ) in the container ter ( 4 ). 9. Device according to one of claims 1 to 8, wherein the container ( 4 ) with a pressure regulating device ( 7 ) is ver bindable. 10. The device according to claim 9, wherein the Druckregulierein direction ( 7 ) has at least one small tube ( 8 ), which is held in the closure ( 15 ).