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Claims  |
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We claim:
1. An electronic hearing aid which is insertable into an ear canal
comprising:
a first section having a top part containing input and control elements;
said first section tapering to a bottom part and encapsulating
amplification circuitry and sound conduction channels;
a second tubular flexible section removably connectable to said first
section and comprising a first end having a receiving opening for
partially receiving the bottom part of said first section, a plurality of
distending sections and a second end having a tapered and sealed distal
end comprises a thin sound conduction membrane integrated within said
distal end, a plurality of flaps attaching to said first end, and
wherein said second tubular flexible section is attached to said first
section and the combination is insertable into the ear canal of a user
with the plurality of distending sections and the plurality of flaps
folded backwardly upon insertion.
2. An electronic hearing aid as per claim 1, further wherein said input and
control elements located in said top part of said first section comprises
a microphone including a sound input opening.
3. An electronic hearing aid as per claim 2, further comprising a wind
deflector means at least partially circumferentially surrounding said
sound input opening.
4. An electronic hearing aid as per claim 1, wherein said top part of said
first section further contains a battery compartment, volume adjuster and
microphone opening.
5. An electronic hearing aid as per claim 4, further comprising a wind
deflector means at least partially circumferentially surrounding said
microphone opening.
6. An electronic hearing aid as per claim 1, wherein said second tubular
flexible section is made of silicon or equivalent material.
7. An electronic hearing aid as per claim 1, wherein the bottom part of
said first section and the receiving opening of said second tubular
flexible section are textured to increase adhesion upon attachment
thereof.
8. An electronic hearing aid as per claim 1, wherein said second tubular
flexible section may be removed from the ear canal of the user using the
distending sections if said first and second sections become unattached
while in the ear canal.
9. An electronic hearing aid as per claim 1, wherein said membrane
thickness is 0.01-0.001 inches thick.
10. An electronic hearing aid which is inserted into an ear canal
comprising:
a first section having a top part containing input and control elements;
said first section tapering to a bottom part and encapsulating
amplification circuitry and sound conduction channels;
a second flexible section removably connectable to said first section and
comprising:
a first end having a receiving opening for partially receiving the bottom
part of said first section;
a tubular mid-section;
a second end having a tapered and sealed end section, wherein said sealed
end section comprises a thin sound conduction membrane integral therewith;
a plurality of flaps attaching to said first end, and wherein said second
flexible section is attached to said first section and the combination is
insertable into the ear canal of a user with the plurality of flaps folded
backwardly upon insertion.
11. An electronic hearing aid as per claim 10, further wherein said input
and control elememnts located in said top part of said first section
comprises a microphone including a sound input opening.
12. An electronic hearing aid as per claim 11, further comprising a wind
deflector means at least partially circumferentially surrounding said
sound input opening.
13. An electronic hearing aid as per claim 10, wherein said top part of
said first section further contains a battery compartment, volume adjuster
and microphone opening.
14. An electronic hearing aid as per claim 13, further comprising a wind
deflector means at least partially circumferentially surrounding said
microphone opening.
15. An electronic hearing aid as per claim 10, wherein said second flexible
section is made of silicon or equivalent material.
16. An electronic hearing aid as per claim 10, wherein the bottom part of
said first section and the receiving opening of said second section are
textured to increase adhesion upon attachment thereof.
17. An electronic hearing aid as per claim 10, wherein said second flexible
section may be removed from the ear canal of the user using the flaps if
said first and second sections become unattached while in the ear canal.
18. An electronic hearing aid as per claim 1, wherein said membrane
thickness is 0.01-0.001 inches thick.
19. A two-piece electronic hearing aid which is wholly insertable into an
ear canal of a user comprising:
a first section having a top part containing a microphone opening, wind
deflector, battery compartment and volume control;
said first section tapering to a bottom part and encapsulating
amplification circuitry and sound conduction channels;
a second flexible section removably connectable to said first section and
comprising:
a first end having a receiving opening for partially receiving the bottom
part of said first section;
a tubular mid-section;
a second end having a tapered and sealed end section, wherein said sealed
end section comprises a thin sound conduction membrane integral therewith;
a plurality of flaps, attaching to said first end and
wherein said second flexible section is attached to said first section and
the combination is insertable into the ear canal of a user with the
plurality of flaps folded backwardly upon insertion. |
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Claims |
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Description |
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2. Discussion of Prior Art
The first electronic hearing aids were relatively large devices, usually
with the electronics remotely connected (i.e. hung around the neck, placed
in a shirt pocket or attached to a belt). Typically, a case holding the
electronics would be worn by the user with a connection up and into the
ear canal.
Hearing aids soon developed into small devices that moved the electronics
into a small casing which was worn behind the ear. Most recently
developments have miniaturized the electronics such that the entire device
fits into the inner ear or canal.
While miniaturization of hearing aids has benefited the aesthetics of
hearing aids, very few major advancements have been made with respect to
internal fit, wind noise and the prevention of wax build-up interfering
with the transference of sound.
Three basic techniques are typically used to provide for fitting hearing
aids into the ear canal. The first technique involves the very costly and
time consuming process of custom designing the shell by making an internal
ear canal mold. The mold is then used to form the outer shell of the
hearing aid. The second technique is to design the outer shell of a
hearing aid to fit the general size and shape of a typical ear canal. The
manufacturer may supply a discrete number of sizes reflecting their
preferred shape. The third technique has a small insert which typically
fits the general opening of an ear canal but does not fit down into the
canal itself.
The patent to Haertl, U.S. Pat. No. 4,716,985 illustrates an example of the
first technique (see column 1, etc.). The following U.S. Pat. Nos.
4,532,649; 4,706,778; 4,852,177; 4,984,277 and 5,185,802 are examples of
the second technique. U.S. Pat. Nos. 5,046,580; 4,456,795 and 4,977,976
are examples of the third technique.
The prior art is deficient with respect to corrective techniques for wind
noise. Wind noise remains a problem which has very few solutions. Severe
wind noise may prevent the user from keeping the volume at a proper level.
Due to the loud noises created and masking of directive sound waves, a
user will either turn down the volume or not use the device at all. The
patent to Beaudry (U.S. Pat. No. 3,124,663) alludes to raising or lowering
the opening of the microphone and illustrates use of a cylindrical tube.
A number of patents have attempted to solve wax build-up interference with
the use of a mesh screen, end-cap or porous membrane with a small channel
or plurality of parallel channels located therein. Prior art examples of
these attempts are the patents to Haertl (U.S. Pat. No. 4,987,597),
Stanton (U.S. Pat. No. 5,185,802), Bisgaard et al. (U.S. Pat. No.
4,984,277), Weiss et al. (U.S. Pat. No. 4,953,215), Nassler (U.S. Pat. No.
4,879,750), Ambrose (U.S. Pat. No. 4,852,177), Haertl et al. (U.S. Pat.
Nos. 4,739,512 and 4,716,985), Topholm (U.S. Pat. No. 4,706,778),
Bellafiore (U.S. Pat. No. 4,532,649), Diethelm (U.S. Pat. No. 3,852,540)
and Martin (U.S. Pat. No. 3,374,318). Each prior art attempt to prevent
the interference of built-up earwax uses some type of semi-permeable
barrier (i.e. vented caps). In addition to the deficiency of requiring
some form of opening to allow for the transference of sound, many of these
solutions require extreme dexterity to remove and replace such a tiny
barrier. As hearing aids may be worn by those whose dexterity may not be
sufficient to perform such a task, regular cleaning may not be performed
as necessary.
What is needed is an easy-to-use, form fitting, hearing aid with a wind
noise suppressor and a sound-permeable wax retardant barrier for the sound
conduction path.
SUMMARY OF THE INVENTION
Objects of the Invention
It is an object of the present invention to make a unique two-piece hearing
aid.
It is further an object of the invention to make a hearing aid which is
comfortable and fits snugly within the ear.
It is also an object of the present invention to make an off-the-shelf
device which is dynamically adjustable to fit varying canal sizes.
It is further an object of the invention to eliminate ambient wind noise.
It is further an object of the present invention to provide for a hearing
aid which prevents the build-up of earwax from interfering with the proper
operation of the hearing aid.
It is an additional object of the invention to make a hearing aid easy to
maintain.
It is also an object of the present invention to make a low cost device.
These and other objects will be discussed in detail hereafter as provided
for in the drawings, detailed specification and claims.
These objects are achieved in the present invention by providing a
two-piece hearing aid with a soft flexible snap-on covering which
contributes to the proper fit, comfort, ease of maintenance and prevention
of earwax build-up interference. The end of the snap-on insert has a thin
sound permeable membrane which does not allow earwax into the hearing aid.
In addition, a directional windramp redirects wind away from the
microphone opening to greatly reduce ambient wind noise.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1, illustrates an exploded view of the two piece hearing aid of the
present invention.
FIG. 2, illustrates a side view of the two piece hearing aid of the present
invention connected for use.
FIG. 3, illustrates a right side view of the two piece hearing aid of the
present invention.
FIG. 4, illustrates a left side view of the two piece hearing aid of the
present invention.
FIG. 5, illustrates a top view of the two piece hearing aid of the present
invention.
FIG. 6, illustrates a bottom view of the two piece hearing aid of the
present invention.
FIG. 7, illustrates a front view of the two piece hearing aid of the
present invention.
FIG. 8, illustrates a rear view of the two piece hearing aid of the present
invention.
FIG. 9, illustrates an internal cut-away of the device with tip connected.
DETAILED DESCRIPTION
In accordance with the instant invention, FIG. 1 illustrates the general
configuration of a two-piece in-the-ear hearing aid. The hearing aid
assembly 1 consists of a top section 4 and bottom section 7. The assembly
is made of injection-molded thermoplastic, but could be adequately made
out of other equivalent materials. Sections 4 and 7 are snap-fit together
but could also be glued, screwed or attached by other known methods.
The assembly encapsulates the air conduction electronics which provide for
the amplification and control of the hearing aid(See FIG. 9).The
particular electronics are not part of the present invention. Suitable
electronics could be used which would satisfy the internal physical
configuration of the assembly. The electronic characteristics should
generally be in the range of 20 db at 60 db spl - input and 107 db spl at
3 Kz - output, but should not be limited thereto.
Top section 4 contains the external controls, battery replacement opening
and microphone input. Volume control knob 2 provides for easy access to
volume adjustment. Battery compartment 3 is a conventional hinged battery
door which flips up for replacement of a conventional 1.4 Volt, no. 312
battery. Wind ramp 5 provides for a directional deflector for microphone
opening 6. The wind ramp alleviates previous prior art problems associated
with ambient wind noise with a significant reduction thereof.
Bottom section 7 consists of a top section which, as previously discussed
above, connects to upper section 4 and a downwardly extending ear canal
section 8. Attached to the end of section 8 is head section 9 with a sound
conduction opening 15. A sound conduction channel 17 runs from the
electronics through section 8 to the opening 15.
Section 10 is a soft flexible ear tip which snaps onto the head section 9
and section 8. Although not shown, section 8 and the tip may be ribbed to
provide for both compressional and friction retention. The tip is
preferably made of silicon but can be made of any suitable equivalent
material (e.g. rubber) which provides for flexibility, durability,
softness and moisture resistance. A typical durometer rating of 60 is
preferred, but the invention should not be limited thereto. The tip
consists of a hearing aid receiving section 12 which receives section 8 as
previously described above. Flaps 11 provide the means with which to grasp
the tip and further fold upwardly when the device, as shown in FIG. 2, is
inserted into the ear canal to provide for a snug fit to the canal and its
opening. The tubular mid-section of the tip 13 tapers to an end section 14
which encapsulates a membrane 16 (shown in FIG. 6). The tip may be
prefabricated in a plurality of sizes which may be selected according to
the internal size of a user's ear canal.
The membrane 16 provides for the through conduction of amplified sound
coming from channel 17, but prevents the throughput of earwax into the
hearing aid assembly.
The major features of the membrane are as follows:
1. An integral membrane diaphragm which prevents ear wax from plugging the
hearing port and/or infiltrating the hearing device and damaging the
devices electronics and micro speaker. Attempts to clean the hearing port,
electronics or micro speaker frequently damage the device irreparably. The
integral membrane can be an added piece but is preferably molded as an
integral part of the tip itself.
2. The integral membrane diaphragm should be as thin as possible in order
to minimize attenuation of the amplified sound from the micro speaker in
the hearing aide device to the user's ear drum. The membrane must be less
than 0.010" thick and ideal performance occurs with membranes below 0.001"
thick.
3. The hearing aid tip and integral membrane diaphragm should be made from
a soft compliant material such as a rubber or thermoplastic elastomer. The
durometer of the elastomer should be soft enough to allow:
a) the tip to stretch over the receiving end of the hearing aid device.
b) provide an air tight seal between the inner ear and the hearing aid
device.
c) a level of compression against the inner ear canal so as to be
comfortable enough to where for long periods of time.
d) A Shore A scale durometer of less than 60 is desirable.
4) The hearing aid tip and integral membrane diaphragm can also incorporate
integral molded straps 11 to allow the tip to be easily mounted and
removed from the hearing aid device and to allow easy removal from the ear
canal if it were to be accidentally separated from the hearing aid device.
The straps also provide additional soft interface between the device and
the ear.
5) The hearing aid tip and hearing aid device can be made in such a fashion
to provide a mutual fit which securely mounts the tip when the device is
in the ear canal, yet allows the tip be easily mounted and removed from
the hearing aid device when the device is not in the ear. This can be
accomplished by providing an mating fit between the two parts so that the
tip must be substantially stretched over a mating ring on the device. The
amount of stretch and interference should be substantial enough so that
when the device and tip are in the ear canal the two parts are contained
by the ear canal and cannot be separated.
6) The sizing of the tip and the receiving portion of the hearing aid
device can be constructed in such a way as to stretch the membrane
substantially when mounted, creating a membrane thickness substantially
less than the membrane of the tip prior to mounting.
To use the hearing aid the following steps should be followed:
1. Have ear canal measured to determine size of tip 10.
2. Select appropriate tip.
3. Have hearing measured.
4. Select appropriate electronics settings for proper amplification range.
5. Attach tip.
6. Insert battery.
7. Set initial volume setting.
8. Insert into ear folding flaps 11 backward.
9. Removal--pull on section 1/4 with 10 attached.
10. If hearing aid becomes dislodged from tip, pull tip from ear using
flaps 11.
CONCLUSION
A system and method has been shown in the above embodiments for a unique
two-piece hearing aid which provides for a form fit, reduction in ambient
wind noise, is small in size, easy to maintain and eliminates earwax
migration into the hearing aid. While various preferred embodiments have
been shown and described, it will be understood that there is no intent to
limit the invention by such disclosure, but rather, is intended to cover
all modifications and alternate constructions falling within the spirit
and scope of the invention as defined in the appended claims.
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