DE19618016A1 - Realistic acoustic hearing arrangement for selection of hearing aid - Google Patents

Abstract

The arrangement is composed of an artificial head with hearing organs and measuring devices, as well as respective converters. A realistic, three-dimensional image of the natural, human head (1) is equipped with realistic, three-dimensional models of human ears (2) on the right and on the left. A defined amount of microphones (4) are arranged in the ear models at a corresponding location of an eardrum of a person. The ear models comprise internal receptions for mechanical and electronic hearing aids (3), in which the hearing aids are temporarily inserted for the examination. The auditory canal volume can be fixed or adjusted continuously or in variable steps. An electronic amplifier building block (5) is coupled with the microphones, with sound sources (6) and an alternatively usable auxiliary power source (7). The image of the human head consists preferably of plastic, plaster or other mouldable materials.

Description

The invention relates to the technical field of medical physical measuring arrangements and methods and thus relates to a electroacoustic arrangement and a method for realistic Hearing aid preselection and adjustment with the aim of compensating for Hearing disorders in humans without the spatially plastic anatomy and the subject's acoustic parameters must be taken into account.

For the purpose of noise measurement, especially in the automotive as well as usual manufacturing industry, and for recording acoustic quantities as well as for evaluating acoustic characteristics, especially for high-quality ones Sound recordings of the so-called "artificial head stereophony" are Heads related.

An example is the product from Brüel & Kjaer, Copenhagen called, which is a replica of a human head in natural Represents size. This head is known to be made of hard plastic. It has molded, merely indicated ear cups and forms one physical unity with these. Inside there are measuring microphones interchangeably arranged. Because of these arrangements and design of the o.a. Auricle moldings can be the real natural acoustic Relationships as in an ear canal in the interaction of this with the eardrum and the outer ear, not reproduced and be grasped. DE OS 28 32 201 describes a model of a human head with its organ elements, such as ear, tongue and Nose sections. The model components are provided such that they in hardness and flexibility of the nature of the living object to come close to the picture. As a suggestion for the skull part this model claims this technical solution polyester resin and Model part ear section for the ear cup section compliant mate rial, demonstrably soft silicone rubber and for the ear-holding section hard silicone rubber. A section of the eardrum should be removable into the Be auditory canal section used. The purpose of this techni The solution, however, is handling with these organ elements  to be able to be close to reality and the one who handles it convey pressure to do this on the human organism. In this Context it is the purpose of this invention, realistic exercises, Observations, examinations in the medical-diagnostic or -thera field, especially for teaching purposes, by means of and on this To be able to carry out the model. A reproduction and recording of acoustic Features as they appear in the real human ear are with it not possible and not provided. The document DE G 85 06 350 be writes an auricular prosthesis that consists only of two curved, po Round rods made of polyethylene and practically only the ear perform corresponds. This prosthesis is intended as an implant and does not at best as an arrangement for realistic representation and recording suitable acoustic characteristics in the human ear. The document DE PS 39 00 006 describes a learning head as a teaching and learning model for practicing correct placement of EEG caps or EEG measuring electrodes on the head of Pa tients and is composed of a fully magnetic plastic material set. Von Platte, H.-J., Laws, P. and vom Hoevel, H., order for exact reproduction of ear signals, progress of acoustics, physics Verlag Weinheim, 1975, pp 361 to 363 sound signals from the ear channels captured and reproduced by living people. This methodology is not suitable, also because of the constant willingness of a Ver search person in a hearing-acoustic commercial company or a direction not desirable to z. B. disorders and disabilities or even explore pathological changes in people. Likewise suitable this procedure by means of test subjects does not involve demonstrations, Controls, settings and adjustments of hearing aids, in particular to control the adjustment of the dynamic frequency response of electro African hearing aids. The be in DE OS 31 46 706 written technical teaching serves the purpose of avoidance or sub Pressing transmission errors of sound recording and playback systems and is therefore not for determining z. B. disorders and loading obstacles or even pathological changes in the ear organs of people suitable. DE 35 09 358 solves a task for healthy people considered as a message recipient, with a simulation of trans supply properties of an electronic artificial head is made. This technical solution does not help hearing loss in humans recognize and reproduce. As is well known, this is done at the present time the adjustment of hearing aids based  known diagnostic methods, such as tone threshold audiometry, speech audiometry and auditory field scaling. Required for hearing aid fitting The transfer characteristic is calculated using different maths matic procedure and then approximates the hearing aid set wisely. It is the goal of adaptation, the transfer supply-actual characteristic curve as far as possible of the calculated target characteristic curve to approximate. The disadvantages of these procedures do exist thing that the anatomically different acousti parameters such as ear canal volume, size and condition of the ear mussel and temporal resolution of the hearing organ be viewed. Likewise, it is not possible to own the acoustic the earmold or the mechanical part of the hearing aids such as of the entire acoustic system.

Starting from the aforementioned, the invention is based on the object to find a way for the commercial area of hearing acoustics which allows a qualified time and cost-saving pre-selection perform the individually applicable hearing aids and their Realistic adjustment of the electrical and acoustic para meters of the patient-specific hearing loss found sieren.

This task is for a generic arrangement according to the Oberbe handle of claim 1 and the generic method according to the upper Concept of claim 6 according to the invention in the characterizing Part of claims 1 to 6 specified features solved.

The invention uses u. a. the possibility of replicating the natural Properties on the human organism through synthetic in particular Materials, their possibilities for post-forming and their spe material properties, thus the realistic imitation parts of the human being. The order consists of a realistic, three-dimensional replica of the natural, human head, with realistic, three-dimens sional training of human ears - here as model ears inscribed on the right and left - is provided. The replica of man union head is preferably made of plastic, plaster and others malleable materials. The model ears are firmly attached to the model head used interchangeably and consist of a single, not  differentiated body, preferably made of plaster, plastic or other malleable materials, in particular made of medium-hard silicone rubber, with natural mechanical and acoustic properties. By the An Order of model head and model ears to each other and the selection of the suitable execution materials become realistic acoustic properties and parameters achieved in any environment that the natural auditory impression of any test person very far are approximated. There is a defined number of in the model ears Microphones in the place of the eardrum in humans arranged to detect the acoustic measurement signals. The model ears be inside are recordings for mechanical and electronic hearing aids in which these are temporarily used or are suitable for the Recording of mechanical and electronic hearing aids, whereby the Hearing aid application usually carried out in humans accordingly will. The ear canal volume on the model ears becomes independent from each other either chosen permanently or variably continuously or in one Step series set. The microphones are transducers, in particular Measurement microphones. Furthermore, an electronic amplifier module Transducers that are in the place of humans Drumheads are located, downstream, optionally one at the output Sound source for listening to the processed sound signal is arranged. The purpose of the amplifier module is to observe the sound-appropriate sig given by the hearing aids via the transducers nals in one or more frequency bands using the headphones to enable the test subjects themselves.

The realistic replica of the hearing organs of the head are included the transducers / measuring microphones, with a defined ear canal volume is set. In the recordings of the model ears, the Hearing aids using a standardized otoplastic or a nor mated in-ear shell. The sound generated by the hearing aid signal is sent to the linearly transmitting broadband amplifier module leads and the output side via headphones to the patient to be cared for made accessible, while the ear canal volume is variable set or fixed is used. The transmission ver keep the standardized hearing aids inserted in the measuring ears in its parameters are not changed by the arrangement, so that the found patient-specific hearing loss corresponding frequency or frequency band-related transmission characteristics of the selected hearing  help depicted exactly and differentiated by the test person according to type and type hearing aids can be compared using headphones. Of the Transmitted sound is at the amplifier output by the subject or by the hearing impaired person and by changing the acoustic and audiological parameters of the hearing aid and their functionally assigned complementary assemblies (otoplastic) adjusted. Has an advantageous effect with this arrangement and procedure from that, in contrast to previous state of the art is no longer necessary, the previously necessary technological steps, e.g. B. each of the previous productions otoplasty or an in-the-ear Device shell for coupling the hearing aid to the natural ear of the pa to perform. The via model ear and measuring head to the amplifier connected hearing aid can be based on this proposed teaching adjusted, adjusted and controlled with great precision be by the transmitted sound at the amplifier output in the patient intercepted himself and thus from the outset the suitability of the proposed Hearing aid by changing their acoustic and audiological parameters ter with the greatest possible clarity, sharpness, transparency and volume can be assessed by the patient. A ho reproductive accuracy for the subsequent final restoration achieved with an individual hearing aid to be made afterwards. This saves time and costs for the acoustically sound commercial enterprise as well as for the patient and his financing insurance company ger.

In a preferred embodiment, the invention is as follows explained in more detail.

Fig. 1 shows the representation of an arrangement for realistic hearing device selection.

The realistic human head 1 is made of a glass fiber reinforced plastic and has an opening at each of the two places where the ears are in humans. In this opening, the silicone rubber of medium hardness and in one piece realistic molded ear models 2 are inserted according to DE M 95 05 511.8. In ear models are two of the places de eardrums nen are human, measurement microphones 4 arranged. In the ear models 2 there are receptacles for hearing aids 3 , which are used temporarily for the selection of hearing aids. Here, an ear canal volume corresponding to the respective requirements and goals, e.g. B. 2 cm³ set. The measuring microphones 4 is connected to a broadband amplifier 5 , which processes the frequency-dependent, generated by the hearing aid 3 and delivered via the measuring microphones 4 sound-appropriate signal in one or more frequency bands to the headphones 6 . A patient-specific hearing loss can thus be compensated for by a suitable frequency- or frequency band-related transmission characteristic of a hearing aid and the most suitable solution for eliminating the individually found hearing disorders of a patient can be found quickly, efficiently, reproducibly and with high accuracy. During the examination, the sound signal compensating his individual hearing loss is made accessible to the patient via the headphones 6 . An objective assessment of the qualitative performance parameters of the hearing aid, including the earmold, is possible using speech audiometry and auditory field scaling before the final manufacture of the individual earmold assembly. The power supply 7 is used to power the arrangement.

Claims (6)

1. hearing acoustic arrangement for realistic hearing aid selection, consisting of an artificial head with hearing organs and measuring devices and transducers, characterized in that a realistic, three-dimensional replica of the natural human head ( 1 ) with realistic, three-dimensional training of human ears - is provided as model ears right and left - ( 2 ), a defined number of microphones ( 4 ) being arranged in the ear models ( 2 ) at the location of the eardrum naturally found in humans, that the model ears ( 2 ) recordings inside for mechanical and electronic hearing aids ( 3 ), in which the hearing aids ( 3 ) are temporarily used for examination, the auditory canal volume being either fixed or variably variable or stepped, so that an electronic amplifier module ( 5 ) the microphones (4) is connected downstream and since re around this electronic amplifier chip (5) sound sources (6) and a selectively deployable auxiliary power source (7) are arranged downstream. 2. Arrangement according to claim 1, characterized in that the replica of the human head ( 1 ) preferably consists of plastic, plaster and other moldable materials. 3. Arrangement according to claim 1, characterized in that the model ears ( 2 ) on the model head ( 1 ) are inserted or exchangeable bar, made of a uniform, undifferentiated body and preferably made of plaster, plastic or other moldable materials, in particular Silicone rubber of medium hardness with natural mechanical and acoustic properties. 4. Arrangement according to claim 1, characterized in that the microphones ( 4 ) are transducers, in particular measuring microphones. 5. Arrangement according to claim 1, characterized in that the electronic amplifier module ( 5 ) is such an amplifier, the frequency-dependent processing of the hearing aid ( 3 ) via the transducer ( 4 ) emitted sound-appropriate signals in one or more frequency bands with respect their frequency response and their dynamic parameters are not falsified or changed. 6. A method for realistic hearing device selection, wherein a characteristic curve adaptation to a simulation result for emulating hearing disorders in humans takes place, characterized in that
that the realistic replica of the hearing organs ( 2 ) of the head ( 1 ) are provided with a defined number of transducers / measuring microphones ( 4 ),
that hearing aids ( 3 ) are used in the recordings of the hearing organs ( 2 ) using a standardized otoplastic or a standardized in-ear bowl,
that then the signal generated by the hearing aid ( 3 ) via the transducer ( 4 ) is fed to the amplifier ( 5 ) and is made accessible on the output side via headphones ( 6 ) to the patient to be treated for assessment, the auditory canal volume being variably adjustable in the meantime or is used as fixed,
that the transmission behavior of the electronic amplifier ( 5 ) enables the assessment of the dynamic frequency or frequency band-related transmission characteristic of the selected hearing aids ( 3 ) by the patient.