EP2220873A2

EP2220873A2 - Earpiece

Info

Publication number: EP2220873A2
Application number: EP08857295A
Authority: EP
Inventors: Heinz Epping; Dirk Hackbarth; Markus Kuhr
Original assignee: Sennheiser Electronic GmbH and Co KG
Current assignee: Sennheiser Electronic GmbH and Co KG
Priority date: 2007-12-03
Filing date: 2008-12-03
Publication date: 2010-08-25
Also published as: WO2009071570A2; WO2009071570A3; DE202007016881U1; CN101884223A; US20110031060A1

Abstract

The invention relates to an earpiece having at least one housing (2) having a first end for receiving an earplug (1) and a second end for receiving a cap unit (3). The cap unit is hereby designed to be removable and/or displaceable relative to the housing.

Description

receiver

The invention relates to a handset.

There are hitherto known listeners in various embodiments. These can be distinguished due to their design in in-ear headphones or in-ear headphones and earphones. In-ear headphones are inserted into the ear canal and therefore already provide a degree of isolation from external noise. Earphones, on the other hand, are placed over the auricle and either rest on it or completely surround the ear. Earphones can either be closed or (half) open. In the closed design, a larger bass pressure is achieved, which must be achieved in the (semi-) open design by the technique of sound generation. For the generation of sound electrodynamic systems are widely used, which have replaced the electromagnetic technologies. Also possible are electrostatic and piezoelectric systems.

The acoustic behavior of the listener is essentially determined by the combination of the design with the technique of sound generation. In the case of sound generation, there are far-reaching possibilities for determining the acoustic behavior through the design of the sound transducer technology during production, as well as further influencing possibilities by controlling the sound transducer. Furthermore, the design of the listener affects the sound transmission and propagation. In this case, the sound transducer is surrounded by a housing both in in-ear headphones and earphones, which is permeable to the side of the ear canal for sound and allows its propagation in the direction of the eardrum. Around the sound transducer, the housing seals the ear to the outside, wherein the embodiment as an in-ear listener or as earphones accomplish this task by different embodiments. Outwardly, the housing is designed in each case such that a sound propagation in this direction avoided if possible. Within the housing, a defined volume is thus available, which can be excited by the sound transducer and whose sound waves can spread as far as possible exclusively towards the eardrum. The type and quality of the sound waves is determined by the totality of the mechanical characteristics of the listener and the sound transducer technology used.

All earphones described above have in common that their acoustic properties are largely determined during production. The control of the sound transducer is therefore generally the only way to influence the properties of the generated acoustic sound by changes in the electrical signal. Thus, these influence options are shifted away from the listener to the signal source of the electrical signal. If, on the other hand, the acoustical properties can also be changed on the sound transducer of the listener, such a possibility is to be provided in the electronics of the sound transducer, whereby a corresponding additional expenditure must be operated during development and production and the installation space of the sound transducer can also increase.

US 2007/0177753 A1 shows an in-ear earphone with a channel for connecting the inner volume delimited by the housing of the earphone to an outer volume. At the exit of the channel, a closing unit is provided for closing or opening the channel. The closure can be closed or opened, for example, by means of a sliding cover.

The invention is therefore based on the object to provide a simpler way to influence the acoustic behavior of a listener.

This object is achieved by a handset according to claim 1.

Thus, a handset is provided with at least one housing having a first end for receiving an earplug and a second end for receiving a capping unit. In this case, the cap unit is removable and / or designed to be movable relative to the housing.

An advantage of the receiver according to the invention is that the housing of the listener is formed at its second end so that there can be accommodated a cap unit. This cap unit is held at this end, but is removable. As a result, the acoustic properties of the listener are not finalized during production, but can be adjusted during use by the user to his individual sound ideas. This is done by changes to the housing, which is inventively designed so that can change its effect on the acoustic behavior of the listener by simple mechanical see changes.

According to one aspect of the invention, the capping unit may be both detached and attached without the use of tools. This allows the user to make changes to the housing of the handset very quickly, easily and conveniently even.

According to a further aspect of the invention, different cap units are designed such that they have a different acoustic behavior. As a result, by removing a cap unit and attaching another cap unit, a different acoustic behavior of the listener can be achieved.

According to one aspect of the invention, different cap units may include different volumes. Since the volume which is enclosed by the receiver housing influences the acoustic behavior of the listener, the enclosed volume of the cap unit can be used to specifically influence the acoustic behavior of the entire listener.

According to one aspect of the invention, the cap units have at least one opening. Since this allows the sound propagating in the enclosed volume to also propagate to the outside, the type and number of openings in the cap units can also have a targeted effect on the acoustic behavior of the entire listener.

According to one aspect of the invention, acoustic resistance material or different acoustic resistance materials are provided at least in or at an opening. Due to the nature of the material, the effect of the opening on the acoustic behavior of the listener can be selectively influenced.

The invention likewise relates to a receiver in which the housing of the receiver is designed at its second end in such a way that the cap unit has a relation to the housing. - A -

is running away. As a result, the acoustic properties of the listener are also not determined during production final but can be adjusted during use by the user to his individual sound ideas. This is done solely by moving the cap unit relative to the housing, which is designed according to the invention so that the acoustic behavior of the listener can be changed by the position of the cap unit and the housing to each other.

It is advantageous if the cap unit and the housing each have at least one opening which lie in the same plane. As a result, the openings of the cap unit and housing can be brought into coincidence with one another by the movement of the cap unit and the housing relative to one another. As a result, the handset on a different adjustable acoustic behavior, depending on whether the two openings are in cover or not.

According to one aspect of the invention, an acoustic resistance material or different acoustic resistance materials is provided in or at least one opening in the cap unit and / or the housing. Due to the nature of the material, the effect of the opening on the acoustic behavior of the listener can be selectively influenced.

According to one aspect of the invention, the openings in the cap unit and / or housing are designed such that the openings can be brought at least partially into coincidence by the movement of the cap unit relative to the housing. As a result, the resulting opening, which acts on the acoustic behavior of the listener corresponds to the overlapping openings of cap unit and housing. This allows for an increasing coverage of the corresponding openings with a corresponding effect on the acoustic behavior of the listener.

According to one aspect of the invention, the cap unit movable with respect to the housing can both be removed and fastened without the use of tools. This allows the user to make changes to the housing of the handset very quickly, easily and conveniently even.

According to one aspect of the invention, different cap units movable with respect to the housings may include different volumes. Because of

Volume, which is enclosed by the receiver housing, the acoustic behavior is influenced by the listener, can be specifically influenced by the enclosed volume of the cap unit, the acoustic behavior of the entire listener.

Exemplary embodiments and advantages of the invention are explained in more detail below with reference to the following figures:

1 shows a plan view of a receiver according to a first embodiment,

2 shows a further plan view of a receiver according to the first embodiment,

3 shows a plan view of a cap according to the first exemplary embodiment,

Fig. 4 shows a further plan view of a handset according to a first

Embodiment,

5 shows a frequency response of the handset according to the first embodiment, FIG. 6 shows a further frequency response of the handset according to a first embodiment

Embodiment,

Fig. 7 shows a further frequency response of the listener according to the first

Embodiment,

8 shows a top view of a receiver according to a second exemplary embodiment,

Fig. 9 shows a further plan view of a handset according to the second

Embodiment,

Fig. 10 shows a frequency response of the handset according to the second embodiment, Fig. 11 shows a further plan view of a handset according to the second

Embodiment,

12 shows another plan view of a receiver according to the second embodiment,

13 shows another plan view of a receiver according to the second embodiment, 14 shows another plan view of a receiver according to the second embodiment,

15 is a schematic diagram of an in-ear earphone according to a third embodiment; FIG. 16 is another schematic diagram of the in-ear earphone according to the third embodiment;

17 is a schematic diagram of an in-ear earphone according to the third embodiment;

FIG. 18 is a schematic sectional view of the second end of the housing of the in-ear earphone according to the third embodiment; and FIG

19 shows another schematic sectional view of the housing of the in-ear earphone according to the third embodiment.

1 shows an in-ear receiver or an in-ear receiver with a housing 2 which has an earplug 1 at its first end and a cap unit 3 at its second end. In this case, the earplug 1 can be used to support the sound delivery into the ear canal of the user. Furthermore, the earplug 1 is an improved comfort of the handset. The earplug 1 is generally made of soft materials that provide a comfortable fit for the user and isolate the ear canal well against outside noise. In the housing 2 itself is a sound transducer, which operates on the electrodynamic or electrostatic principle. As a result, a membrane is set in vibration so that sound waves propagate from this membrane into the surrounding space. Since the sound propagates in all spatial directions, it is necessary to at least partially complete the housing 2 of the listener to the outside by a capping unit 3. As a result, the housing 2, the cap unit 3 and the auditory canal of the user form a closed volume in which the sound can propagate in the direction of the user's eardrum. Both the size of the enclosed volume and the acoustic isolation of this volume to the outside have an influence on the acoustic behavior of the listener.

So far, the mechanical properties of a listener in its manufacture are finally determined by the fact that the housing of the listener as a closed Unit is provided. As a result, the volume enclosed within the housing is determined and thus also the acoustic influences resulting from the mechanical nature of the listener. To influence the sound behavior of the listener is thus only the electro-acoustic sound conversion available. This can be influenced by the control of the electrical signals. Furthermore, in the manufacture of the sound transducer and its electronics, for example, be formed by switchable resistors such that there are other ways to change the sound behavior. As a result, however, an additional effort is required in the production. Furthermore, further components are necessary and the installation space of the sound converter can increase. Finally, this also determines the possibilities for changing the acoustic behavior during production.

In contrast, the invention provides, inter alia, a simple mechanical possibility to be able to adapt the acoustic behavior of the listener by the user to his ideas. For this purpose, the housing 2 of the receiver according to the invention is designed such that the housing 2 is closed to the outside by a capping unit 3. The nature of this cap unit makes it possible to influence the size of the enclosed volume as well as the acoustic insulation of this volume to the outside, even after production.

In a first exemplary embodiment, this influencing arises from the fact that the cap unit 3 can be removed from the housing 2 or partially removed and fastened to it. It is advantageous if the removal and fastening by the user without the use of tools, i. tool-free, can be made. This allows a quick and easy replacement of the cap unit 3 by the user.

2 and 3 each show a further plan view of a receiver according to the first embodiment. In order to achieve different acoustic characteristics of the listener by exchanging the cap unit 3, different cap units 3a, 3b and 3c may have different acoustic properties or acoustic volumes. As a result, the user has a choice of cap units available, which he can fix depending on his individual ideas on the housing 2 without tools and also remove again. The acoustical behavior of the listener is thus not definitively determined during production, but rather can be changed within the limits of existing interchangeable cap units.

In order to influence the sound behavior by the nature of the cap unit 3, the volume is available, which is enclosed by the housing 2, the cap unit 3 and the auditory canal of the user. Therefore, the cap units 3a and 3b are to be provided to have a different size and thereby to have a different volume.

Furthermore, the isolation of the listener from the environment by the nature of the cap unit 3 can be selectively influenced. Therefore, at least one opening can be provided in the cap unit 3c (FIG. 3), which allows a discharge of the sound through the cap unit 3c to the outside in a defined manner. The sound emission can be determined by the size, nature and number of openings in the cap unit 3c. Through different apertured cap units 3c different settings for the sound leakage can be achieved.

Another possibility for influencing the propagation of sound to the outside is to provide in or at the openings 3c acoustic resistance material. This offers a variety of design options, as in the cap units 3c one or more openings may be present, of which at no, one or more openings completely or even partially an acoustic resistance material may be provided. Also, the same or different materials can be provided at several openings. This allows a wide range of cap units 3c to be provided to the user.

4 shows a plan view of a receiver according to the first embodiment. In Fig. 4 it is shown how a cap is placed on one end of the listener.

5 to 7 each show a frequency response of a listener according to the first embodiment with different caps. By selecting the cap which is placed on the handset, it is thus possible to select which depth frequency responses of the handset should be adjusted. In the handset according to the first embodiment, in particular, the deep frequency response can be adjusted. In the second exemplary embodiment, the acoustic behavior of the listener according to the invention is influenced by the fact that the cap unit 3 is designed to be movable relative to the housing 2. This results in a further possibility for the user to change the acoustic behavior of the listener quickly and simply by the position of the cap unit 3 relative to the housing 2.

FIGS. 8 and 9 each show a plan view of a receiver according to the second embodiment. Both the housing 2 and the cap unit 3 may each have at least one opening 2a and 3a, see Fig. 8. These openings 2a, 3a may lie in a plane so as to be e.g. by rotation of the cap unit 3 relative to the housing 2 can be brought into coincidence with each other. If at least two openings 2a and 3a coincide with each other, this results in an opening of the listener relative to the outside space, so that sound can escape through this resulting opening. This results in a targeted influencing of the acoustic behavior of the listener.

With these openings 2a and 3a, it is also possible to provide acoustic resistance material in or at the openings 2a and / or 3a. As a result, numerous design options for the acoustic behavior of the listener are also possible in the second embodiment, since one or more openings may be present in the cap unit 3 and the housing 2, of which none, one or even more openings completely or even only partially Resistor material may be provided. Also, the same or different materials can be provided at a plurality of openings, see FIG. 8.

10 shows a frequency response of the handset according to the second embodiment. In the graph of FIG. 10, a curve of the listener is shown according to the second embodiment, when the bore 3a is located over the bore 2a and the holes are thus open. Furthermore, a frequency response is shown in which the bore 3a is covered by the bore 2a with damping material. Finally, a frequency response of a listener is shown in which the bore 3a is closed over the bore 2a.

11 to 14 each show a further plan view of a receiver according to the second embodiment. Of particular importance in the second embodiment is the design of the openings 2a and 3a. Because only through the resulting opening, resulting from the coverage of the openings 2a and 3a in the cap unit 3 and housing. 2 results, sound can come to the outside, the nature of the coverage of the openings 2a and 3a a large room for maneuver in influencing the acoustic behavior. Thus, only a single opening 2a or 3a with a corresponding opening of the opposite side 2a or 3a completely bring into line, see Fig. 8 and 9. Also, a plurality of openings 2a or 3a with only a correspondingly large opening of the opposite side 2a or 3a in Cover be brought. Also, the formation of openings 2a and / or 3a is possible, which allow due to their shape, an increasing coverage of one or more openings 2a and 3a, see Fig. 11 to 14. Here, the shape of the openings 2a and / or 3a may be designed in that both stepless and stepped coverage of the openings 2a and 3a can be set.

Another embodiment is a capping unit whose trapped volume can be adjusted against each other by the movement of capping unit and housing. In this case, the cap unit is to be designed such that it can move without tools relative to the housing and can be fixed without tools. As a result, the volume enclosed by the housing and cap unit can not only be changed in steps by exchanging the cap unit, but the cap unit attached to the housing can be displaced by the movement with respect to the housing. The enclosed volume of housing and cap unit can be varied continuously. Further, any kinds of openings as described for the first two embodiments may also be applied to this third embodiment as well.

The described embodiments of the invention are particularly suitable for use in in-ear headphones. However, the use of handsets according to the invention is also in other listeners such. Earphones possible.

The invention relates to the idea of providing an in-ear earphone to which a plurality of acoustically tuned components are attached. These components can be attached or removed by the customer without tools on the handset. This allows the customer z. B. adjust the depth frequency response of the listener according to his ideas of sound.

Furthermore, the invention relates to the idea to provide an in-ear earphone, the housing cap can be rotated about the longitudinal axis. Depending on the position of the cap changes z. B. the deep frequency response. As a result, the customer can adjust the listener's bass response according to his ideas of sound.

Fig. 15 shows a schematic view of an in-ear earphone according to a third embodiment. The in-ear earphone according to the third embodiment has a first end 20 for receiving an earplug and a second end 30. At the second end 30, a movable or rotatable control unit or (end) cap 40 is provided with a hole 41. The operating unit or the cap 40 is designed to be rotatable.

16 shows another schematic view of the in-ear listener according to the third embodiment. The in-ear handset according to FIG. 16 corresponds to the in-ear handset according to FIG. 15. The only difference between these two figures is that the movable or rotatable operating unit or cap 40 has been rotated counterclockwise , so that the hole 41 now points upwards.

Preferably, a hole or opening is provided in the housing 30, and this hole or opening can be closed or opened by turning the operating element or cap 40. When the hole 41 in the knob 40 is made to rotate in accordance with a hole in the second end 30 of the housing by turning the knob 40, the inner volume of the housing is connected to the outer volume.

In other words, by means of the operating element or the cap, an opening or a hole in the housing of the in-ear listener can be opened or closed from outside by the user.

17 shows a schematic representation of an in-ear earphone according to the third embodiment. In Fig. 17, in particular, the second end 30 of the housing and other elements of the cap 40 are shown. In the second end 30 of the housing, a first hole 33, which is designed as an acoustic tunable hole, and a second larger hole 35 for receiving one end of the cap 40 are provided. The first and second holes are preferably provided in a recess 32 at the second end 30. In the recess 32, an opening 33 may further be provided, which may preferably be an elongated or elongated hole or a slot. The operating element or the termination unit or end cap 40 can be positioned in the recess 32 and fastened, for example, by means of a screw 45 and a nut 40 from the interior of the second end 30 of the housing. Further, an O-ring 43 (eg made of silicone) may be provided which may be provided at one end of the cap 40.

Fig. 18 shows a schematic sectional view of the second end of the housing of the in-ear earphone according to the third embodiment. In Fig. 18, the operating element 40 is shown in the installed state, d. H. the screw 45 and the nut 44 are connected or screwed from the inside of the second end 30 of the housing to the operating element or the cap 40.

19 shows another schematic sectional view of the housing of the in-ear earphone according to the third embodiment. Here, the operating element 40 is also fastened by means of the screw 45 and the nut 44 at the second end 30 of the housing. The cap or the operating element 40 has a through hole 41.

The above-described attachment of the operating element 40 is preferably carried out such that the operating element 40 can be rotated to bring the hole 33 in the second end 30 with the (passage) hole 41 in the operating element to match or to close the hole 33 ,

On the inside of the operating unit 40 or the cap unit 40, a nose 46 can be provided, which can cooperate with the slot 34 when the cap unit 40 is placed in the recess 32. Due to the interaction between the nose and the slot, two limitations of the position of the cap unit (eg, to or on) may be provided.

The earphone or the in-ear earphone according to the third embodiment preferably has the opening 35 for receiving the cap 40 in its rear volume, i. H. behind the electro-acoustic playback converter.

Claims

claims

A handset comprising at least one housing (2) having a first end for receiving an earplug (1) and a second end for receiving a detachably configured capping unit (3).

2. Handset according to claim 1, characterized in that the cap unit (3) can be removed without tools and fastened without tools.

3. Handset according to claim 1 or 2, characterized in that different cap units (3a, 3b, 3c) have different acoustic properties.

4. Handset according to claim 1, 2 or 3, characterized in that different cap units (3a, 3b) include different volumes.

5. Handset according to claim 1, 2 or 3, characterized in that the cap unit (3c) has at least one opening.

6. Handset according to one of claims 1 to 5, characterized in that in or at least one opening of the cap unit (3c), an acoustic resistance material or different acoustic resistance materials are provided.

7. A handset, comprising at least one housing (2) with a first end for receiving a Ohrstöpseis (1) and a second end for receiving a cap unit (3), wherein the cap unit (3) relative to the housing (2) designed to be movable is.

8. A handset according to claim 7, characterized in that the cap unit (3) and the housing (2) each have at least one opening (2a, 3a), which lie in the same plane.

9. A handset according to claim 7 or 8, characterized in that the openings of the cap unit (3 a) and the housing (2 a) can be brought by displacement against each other at least partially in line.

10. A receiver according to claim 7, 8 or 9, characterized in that in or at least one opening of the cap unit (3a) and / or the housing (2a) an acoustic sches resistive material or different acoustic resistance materials are provided.

11. A handset according to one of claims 7 to 10, characterized in that the cap unit (3) can be removed without tools and fastened without tools.

12. Handset according to one of claims 7 to 11, characterized in that different cap units (3a, 3b) include different volumes.

13. Handset according to one of the preceding claims, characterized in that the handset is designed as an in-ear handset.

14. Earpiece, in particular in-ear earphone, with at least one housing (10) having a first end (20) for receiving a

An earplug and a second end (30) having at least one hole or opening (33), wherein at the second end (30) is provided a rotatable cap unit (40) for closing and opening the hole or the opening (33).

A receiver according to claim 14, wherein the capping unit (40) has a hole (41) to be registered with the hole (33) at the second end (30) of the housing (10).

16. A handset according to claim 14 or 15, wherein at the second end (20) of the second housing a slot (34) and on the cap unit (40) a nose (46) is provided such that the nose (46) and the slot (34) cooperate in such a way that the rotatability of the cap unit (40) is limited by two positions.