Information
-
Patent Grant
-
6178251
-
Patent Number
6,178,251
-
Date Filed
Thursday, July 2, 199826 years ago
-
Date Issued
Tuesday, January 23, 200123 years ago
-
Inventors
-
Original Assignees
-
Examiners
- Chan; Wing F.
- Harvey; Dionne
Agents
-
CPC
-
US Classifications
Field of Search
US
- 381 367
- 381 375
- 381 377
- 381 378
- 381 390
- 381 370
- 381 376
- 381 15
- 381 380
- 379 430
-
International Classifications
-
Abstract
A collar band supports a boom-mounted microphone that may be selectively positioned on either the right or left side of the user's head. Adjustable neck pads are mounted to the opposite ends of the collar band for added comfort. The collar band may be resized to fit the neck of the user. The collar microphone may be worn for extended periods of time without becoming uncomfortable. A cradle assembly conveniently supports and stores the microphone when it is not in use.
Description
FIELD OF THE INVENTION
This invention relates to a collar band worn around the neck of a user, which supports an attached microphone.
BACKGROUND AND SUMMARY OF THE INVENTION
Microphones are often attached to headsets. Such headset microphones are used daily in many industries to transmit spoken audio information. A few examples include microphones used by musicians, airplane pilots and telephone operators and receptionists. Headset microphones are often preferred over stationary microphones because use of a headset allows for greater degree of movement. Whereas a stationary microphone—for instance a microphone at a podium—mandates that the speaker remain in close proximity to the microphone, a headset microphone allows the speaker to move about with relative freedom.
With the burgeoning importance of computer audio applications such as speech recognition and dictation, Internet telephones, computer telephony and video conferencing, the use of headsets with attached microphones to input audio information into computers has become commonplace. For instance, many computer users create electronic documents through the use of speech recognition software. With these applications, the user creates an electronic document by dictating directly into the computer through a microphone. Similarly, Internet telephones allow real-time audio communications to occur simultaneously between users over the Internet and other computer networks. Many such applications require near-field microphones in which the microphone element is positioned very close to the user's mouth to improve cancellation of background noises. Headsets are the conventional devices for providing such positioning.
Various microphone-input devices, including headsets, have been developed for use in conjunction with computer technologies. Traditional headsets with one or two earphones may be used in conjunction with a microphone. However, earphones or ear pads that directly contact the user's ears, for instance, either by partially or completely covering the auricles, have a tendency to be uncomfortable. This is especially true when the headset is worn for an extended period of time, as is often required when the headset is used in connection with a computer. Because the earphones rest on the soft tissue of the auricle, there also may be pressure points that lead to further discomfort. Earphones that include a speaker are often relatively heavy since each speaker requires a driver. As a result, even a monaural headset that has only one earphone may be uncomfortable when used for an extended period, such as when dictating documents into a computer.
Some kinds of headsets with microphones utilize ear bands or clips of various designs in place of the headbands to provide support for the microphone. For example, a headset ear piece such as that shown in U.S. Design Patent Des.363,487 may be used in connection with a microphone connected to the ear piece. The ear piece supports the microphone, which is adjustable so it may be moved into proximity with the user's mouth. However, ear clips, which are typically designed for placement between the auricle and the temporal bone in the manner of an ear piece on a pair of eyeglasses, may become uncomfortable when worn for extended periods of time. And even though the microphone and the associated boom may be relatively lightweight, all of the weight of the headset and microphone is supported by the user's ear.
Another example of a headset is shown in U.S. Pat. No. 5,457,751. The “ergonomic” headset shown in this patent is designed to be worn with the framework of the headset behind the user's head, and supported in part by the nape of the user's neck. The headset shown in this patent includes ear supported members that rest above and behind the user's ear and conform to the cleft between the auricle and the temporal bone. These ear supported members carry various attachments such as a microphone or speakers. However, since the ear supported members make direct contact with the area at the cleft between the user's ear and the temporal bone, in the same way the ear pieces of a set of eyeglasses contact the ears, the headset may have a tendency to become uncomfortable.
An alternative to the use of headsets in connection with inputting audio information into computers is to use desktop microphones, or microphones that are mounted to, for instance, a computer monitor. When such desktop input devices are used, traditional loudspeakers adapted for use with computers may be used to play back the audio output. The use of a desktop microphone is advantageous because the user's ears are not obstructed and the user may stay in touch with his or her surroundings and may hear, for example, the telephone or a co-worker who stops by. However, like a microphone at a podium, a desktop microphone requires that the user speak directly into the microphone, and in most cases in close proximity to it. This limits the user's range of movement and may lead to fatigue when the microphone is used for any length of time. In other words, the user must dictate directly into a stationary microphone and therefore does not have the option of moving about while using the microphone.
Accordingly, the comfort, functionality and design of microphones have become critical, particularly for microphones used for computer audio applications.
Some computer users have alleviated the problems associated with the headset microphones described above by wearing the headset around the neck, making appropriate adjustments to the orientation of the microphone so that it rests in proximity to the user's mouth. This manner of wearing a headset microphone has also been applied to microphones used in other settings, such as by auctioneers who often use microphones with wireless systems. However, while shifting a headset from the traditional over-the-head position to an around-the-neck position may decrease fatigue to the user's ears, traditional headsets are neither engineered nor designed for wearing around the neck. As a result, ear phones, ear pads and the like do not find a comfortable resting place on the user's neck. Specifically, traditional round or rectangular ear pads that are designed primarily for wearing on the ears are either too large or inadequately shaped to be worn comfortably on the neck, leading to discomfort. In addition, the radius of curvature of a headband designed for wearing over the head may be significantly different from the radius of curvature of a neck. Further, the length of a boom supporting a microphone from a headset to be worn over the head does not correctly position the microphone when the headset is worn around the neck. For all of these reasons, a need exists for a comfortable microphone that may be worn around the user's neck.
The present invention provides a collar band with an attached microphone that is especially designed for use with computer audio applications. The collar microphone eliminates earphones and ear pads, replacing them with neck pads that are specifically designed for wearing around the user's ear. The collar band has a radius of curvature that may be adjusted to comfortably fit any neck size. The collar microphone of the present invention is well suited to be worn for extended periods of time. By eliminating speakers, the user's ears are left unobstructed, thereby leaving the user with “free ears” to keep in touch with what is going on in the user's surroundings. The collar band supports the entire weight of the microphone, which is adjustably mounted to the collar band such that it may be positioned in proximity to the user's mouth, on either side of the user's head.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
is a right side perspective view of a preferred embodiment of the collar microphone of the present invention.
FIG. 2
is a right side perspective view of the embodiment of
FIG. 1
, shown with the collar worn around a user's neck.
FIG. 3
is a cross sectional view of the collar band, microphone and an attached mute switch according to the present invention.
FIG. 4
is a top view of the collar microphone of the present invention.
FIG. 5
is a plan view of a neck pad of the present invention.
FIG. 6
is a close up circle cross sectional view of the left side neck pad assembly shown in FIG.
4
.
FIG. 7
is a perspective view of a portion of the collar band of the present invention.
FIG. 8
is a perspective view as shown in
FIG. 7
with an outer section of the collar band cut away to show the interior of the collar band.
FIG. 9
is a plan view of the two metallic plates that are molded into the collar band.
FIG. 10
is a side view of the two metallic plates shown in
FIG. 9
as they are assembled in the collar band.
FIG. 11
is an isometric view of a microphone cradle assembly supporting and storing a collar microphone while it is not in use.
FIGS. 12 and 13
are sectional side views showing the cradle assembly of
FIG. 11
in partly open and closed, respectively.
FIGS. 14 and 15
are respective front and bottom views of a stand included in the cradle assembly of FIG.
11
.
FIG. 16
is an exploded side view of a cap assembly included in the cradle assembly of FIG.
11
.
FIG. 17
is a rear view of the cap assembly.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
FIG. 1
illustrates a preferred embodiment of collar microphone
10
, which includes a resilient arcuate collar band
12
having at its opposite ends a pair of extension arms
52
,
54
. Adjustable neck pads
14
,
16
are attached to the outer ends of the extension arms. A microphone
18
is mounted to the distal end of a flexible microphone boom
20
, which is pivotally connected at its opposite end to right side extension arm
52
adjacent its connection to right side neck pad
14
. The microphone, which is typically covered with a foam pad or bulb, is electrically connected to a mute switch
17
through a wire
19
(FIG.
3
). The mute switch includes a clip
21
designed to be attached to the user's garment, such as a shirt pocket or lapel. A plug
22
connected to cable that is in turn connected to the computer (not shown) is inserted into switch
17
to complete the electrical connection between the microphone and the computer (FIG.
4
). Since the user wears the collar band and the mute switch, and the mute switch is detachable from the electrical connection with the computer at plug
22
, the user may disconnect the electrical connections at the mute switch and move about freely without having to remove the collar band. The mute switch allows the user to mute the system when necessary so that audio input is not transmitted to the computer, for instance when the user is talking on the telephone.
References herein to sides—right side, left side, etc.—are based upon the orientation of the collar microphone as it is worn around a user's neck, and with regard to the right or left hand side of a user. For example,
FIG. 2
shows the collar band worn such that the attached microphone boom
20
is placed on the right hand side of the user's mouth. Accordingly, the neck pad
14
that is worn on the right hand side of the user's neck is referred to as the right side neck pad. However, as described more fully below, the collar microphone of the present invention may be worn around the user's neck with the microphone positioned on either side of the user's mouth. As such, references to one side or the other are relative and are for illustrative purposes only. Similarly, references to an inner or an outer side refer to the apparatus as it is worn on a user. Thus, a reference to an inner side or surface of the collar microphone refers to the side or surface adjacent the user when the apparatus is being worn.
The collar microphone of the present invention does not include any speakers or other devices through which audio signals may be played back. The collar microphone is accordingly very light. Standard audio monitors that are used with, for example, a computer may supply audio output, if such output is needed or desired in any particular application.
As shown in
FIG. 2
, collar band
12
is configured for wearing around the back of the user's neck, near the nape of the neck, and may be worn on either the inside or the outside of the collar on the user's clothing. Collar band
12
is constructed of three sections: center section
50
, and a pair of extension arms attached to the opposite outer ends of the center section, namely right side extension arm
52
and left side extension arm
54
. Center section
50
is split into two separate bands,
50
a
and
50
b
(FIG.
7
), which rejoin to form a single band on opposite ends. At its center, central section
50
of the collar band is wider than the opposite end portions and provides a broader base that rests on the user's neck or collar.
Center section
50
is constructed to be flexible so that the center section can be resized to fit any size neck. Referring to
FIGS. 7 through 10
, center section
50
includes two metal plates, an inner plate
56
and an outer plate
58
. As the unit is assembled and as illustrated in
FIG. 8
, the two metal plates are mated together and overmolded with a rubber compound
60
that covers the combined metal plates. The rubber coating adds to the comfort of the collar band and helps to hold the position of the collar band on the user's neck.
Outer plate
58
is formed of a malleable metal composition that can be bent along the longitudinal axis extending through the plate. Because the metal in the plate
58
is malleable, the plate will remain in the shape into which it is bent. Inner plate
56
, which has substantially the same shape as the outer plate, is formed of a resilient spring steel compound. While plate
56
may be bent in the same manner as plate
58
, unlike plate
58
, which will retain the shape into which it is bent, the resiliency of plate
56
urges the plate back to its original shape when bent.
Plates
58
and
58
are assembled by mating, or sandwiching the two plates together. When the two plates are mated together, plural tabs
62
extending from and spaced about the periphery of outer plate
58
are bent over inner plate
56
to hold the two plates together in a mated position. FIG.
10
. The two plates are then fixed to one another at common center apertures
64
, for instance with a rivet
65
(FIG.
3
). Tabs
62
are bent over inner plate
56
such that they form a sleeve that holds the inner plate in close proximity to the outer plate.
The combination of the two kinds of metal plates provides flexibility and resiliency in the center section
50
of the collar band. Specifically, while the two plates are fixedly joined at their common center apertures
64
, the plates may be bent along the longitudinal axis extending through the plates. In the relaxed position of the bands shown in
FIG. 10
the plates define an arcuate path for the collar band having a radius of curvature. The radius of curvature of the arcuate path may be altered by bending the combined plates to, for instance, increase or decrease the radius of curvature of the arcuate path. The malleable metal in the outer plate allows the center section to be bent to achieve a desired radius of curvature. Since the metal in the outer plate is malleable, the center section will remain in the shape into which it is bent. Regardless of the shape into which the combined plates are bent, the spring steel of inner plate
56
urges the opposite ends of the plates, labeled
66
,
68
respectively in
FIG. 10
, back toward their relaxed shape. In
FIG. 10
, for example, the spring steel of inner plate
56
urges the opposite ends of the plates
66
,
68
inwardly in the direction of the arrows. In the assembled unit the resiliency of the spring steel plate thus urges the neck pads inwardly against the user's neck with a slight amount of pressure. The combination of a malleable metallic plate with a spring steel plate thus allows for a high level of adjustment and comfort of the collar band. Even with prolonged use and multiple adjustments the center section of the collar will not get “kinks” or otherwise become deformed.
It will be appreciated that the radius of curvature that the outer plate
58
follows is slightly greater than the radius of curvature that the inner plate
56
follows. Accordingly, as the mated plates are bent to alter the radius of curvature of the combined plates, the plates move relative to one another, although the plates are fixed together at apertures
64
. The plural tabs
62
allow for this relative movement of one plate against the other.
Extension arms
52
and
54
are attached to the outer ends of center section
50
at paired apertures
70
a
and
70
b
formed through the plates at the opposite ends
66
,
68
thereof. When the plates are assembled the paired apertures align as shown in FIG.
8
. Paired posts or clips in apertures in the extension arms configured to receive the ends of the plates (not shown) insert into the paired apertures in the plates to join the extension arms to the plates and retain the extension arms in place. The outer diameter of the posts is less than the diameter of the paired apertures
70
a,
70
b,
to allow for the relative movement of the inner plate against the outer plate as the center section is adjusted.
Referring to
FIG. 3
, microphone boom
20
is pivotally mounted to right side extension arm
52
adjacent the connection with right side neck pad
14
. Boom
20
is mounted for pivotal rotation about an axis A (shown as dashed line A in
FIG. 3
) through an arc of rotation α of less than 360°, as illustrated by the dashed line drawings in FIG.
1
. The minimum arc of rotation of the boom is about 270°. Internal stops (not shown) prevent the boom from rotating in a full 360° circle about its connection on the collar band. By allowing for a sufficient arc of rotation of the boom about its connection on the collar band and about axis A, the user may wear the collar band with the boom positioned on either the right hand side or the left hand side of the user's head. Thus, by rotating the boom from one position to another the user may selectively adjust the boom so that the collar band may be worn with the microphone positioned on either the right hand side of the head, or on the left hand side of the head. For instance, in
FIG. 2
boom
20
is shown worn on the right hand side of the user's head. By rotating the boom approximately 90° in the clockwise direction in
FIG. 2
, and by then reversing the orientation of the collar band on the user's neck such that the right side neck pad
14
is worn on the left hand side of the user's neck, the microphone will again be positioned adjacent the user's mouth, but will be worn on the left hand side of the user's neck.
Boom
20
is made of a flexible material that permits the user to adjust the position of the microphone to the position that is optimal for speaking into the microphone, regardless of which side of the head the boom is positioned on, as shown by the dashed line drawing in FIG.
4
.
Each neck pad is mounted to a base
15
that is pivotally connected to a distal end of the extension arm to allow the base, and the associated neck pad, to rotate about the axis extending generally longitudinally through the bases (shown as dashed line B in FIG.
3
). Rotation of the bases
15
about these axes permits adjustment of the neck pads to fit the contours of the user's neck or collar. With reference to left side neck pad
16
, base
15
and thus the neck pad may be rotated through an arc of 360° about axis B. The dashed line drawing in
FIG. 3
illustrates base
15
and left side neck pad
16
rotated about 90° about axis A.
Referring to right side neck pad
14
, wire
19
extends through a passageway
24
in base
15
, through a communicating passageway extending through the connection between the base and the collar band, and to the microphone. Rotation of the right side neck pad through a full circle about axis B could damage wire
19
and associated electrical connections. Therefore, stops (not shown) are provided in base
15
to limit the arc of rotation of the base to less than 360°, and preferably about 350°.
Referring to
FIG. 6
, the distal end
30
of extension arm
54
has a circular post
31
extending therefrom. A circular flange
32
on the end of post
31
defines an adjacent circular groove
34
and a shoulder
37
. A reduced diameter circular aperture
35
formed in the end of base
15
opens into a cavity
39
, defining a shoulder
38
. Cavity
39
is sized to receive flange
32
. When assembled, flange
32
is received into the cavity and shoulder
37
abuts shoulder
38
, thereby retaining base
15
in position on the end of the collar band yet allowing base
15
to rotate about the B axis. Right side neck pad
14
is connected to the opposite end of extension arm
52
in a similar manner. However, as noted above, stops prevent rotation of the base and neck pad in a full circle about the axis.
Since the microphone boom is mounted to the extension arm, the neck pads may be rotated independently of the microphone boom, and regardless of which side of the neck the boom is positioned on.
Like the center section
50
of collar band
12
, the neck pads are made of a soft material such as rubber and are specifically designed to rest comfortably on a user's neck in the area located immediately above the clavicles, as shown in FIG.
2
. The rubber material is not only more comfortable, but also more likely to stay in place on the user's neck or collar. The neck pads may be adjusted according to user preference. When worn in the position shown in
FIG. 2
, the entire weight of the unit is supported by those portions of the neck that are in contact with the collar band and neck pads.
The neck pads define neck-contacting surfaces that contact the user's neck or collar when the collar band is in use. The neck pads are preferably formed in the shape of an elongate oblong having a first end
26
that is relatively wider than a second, relatively narrower end
28
. FIG.
5
. The neck pads taper from the wider toward the narrower end. The pads have a length L and a width W, each of which represents the maximum dimension along the neck-contacting surface of the pad. In the preferred embodiment the length is at least about 3 times the width, and the width is no more than about 2 centimeters. More preferably, the width is about 1.7 centimeters and the length is about 3.5 times the width. The design and dimensions of the neck pads contribute to the comfort of the collar microphone. Since the neck pads rest in the area above the clavicles the pads themselves are preferably designed to be relatively long and narrow. In contrast, traditional headsets with earphones that are intended for covering the user's ears—and which are either substantially round or are in the shape of a relatively large rectangle—do not fit comfortably on the neck.
With reference to
FIG. 4
, the collar band defines an arcuate path and has a collar band length measured along the arcuate path. The collar band length is defined as the distance along the collar band path between the point on one neck pad that contacts the user's neck and which is furthest from a center point
40
on the collar band and the same point on the opposite neck pad. The collar band length of the present invention is fixed. In
FIG. 4
the points on the neck pads that contact the user's neck and which are furthest from center point
40
, and thus define the collar band length, are labeled
42
and
44
, respectively. The collar band path is substantially bilaterally symmetric about the center point. Because the collar band length is fixed, the precise location at which the neck pads rest on the neck of a user will vary with such factors as the size of the user's neck. Nonetheless, because the neck pads are oblong they rest comfortably on the user's neck in the area generally located above the clavicles.
A collar band height is defined with respect to a height line Y that is perpendicular to a tangent line
80
at center point
40
. The collar band height is the distance along line Y from the inner surface
46
of collar band
12
to an intersection with a line X that is perpendicular to line Y and extends to the outer point on a neck pad that is furthest removed from center point
40
along the collar band path. In
FIG. 4
, the outer points on the neck pads
14
and
16
that are furthest removed from center point
40
in the collar band path are labeled
42
and
44
, respectively. Accordingly, in
FIG. 4
the collar band height is the distance along line Y from the inner surface
46
to the point
48
where line Y intersects line X.
FIG. 11
is an isometric view of a cradle assembly
100
supporting and storing collar microphone
10
while it is not in use. Cradle assembly
100
is shown attached to a side surface
102
of a computer display monitor
104
(partly shown). In this implementation, cradle assembly
100
is attached to display monitor
104
with double-sided adhesive tape
105
(FIGS.
12
and
13
), although other suitable attachments may be used.
When attached to display monitor
104
, cradle assembly
100
secures collar microphone
10
in a location that does not clutter a user's desk or other workspace while also keeping collar microphone
10
conveniently accessible. It will be appreciated, however, that cradle assembly
100
could be attached to virtually any other surface or article in proximity to the associated computer. Moreover, cradle assembly
100
could alternatively support and store any other headphone or band-mounted microphone. Collar microphone
10
is referenced specifically in the description of cradle assembly
100
merely for purposes of illustration.
FIGS. 12 and 13
are sectional side views showing cradle assembly
100
in partly open and closed positions, respectively. Cradle assembly
100
includes a stand
106
with an outer perimeter
108
and an interior
110
having a generally central post
112
that extends longitudinally outward from a rear surface
114
. A cap assembly
120
has a complementary fit with stand
106
and fits with it to generally enclose interior
110
.
Cap assembly
120
includes a cap
122
and a base
124
that are positioned at opposite ends of a stem
126
. When cap assembly
120
is fitted to stand
106
, base
124
is positioned toward (e.g., against) rear surface
114
, post
112
extends into and along stem
126
, and cap
122
generally closes interior
110
. Post
112
and stem
126
may have elliptical, oval, or other non-circular cross-sections to assure that users fit cap assembly
120
and stand
106
together with a particular orientation.
Cradle assembly
100
functions as a hanger over which a banded headphone, band-mounted microphone, or collar microphone
10
(i.e., a banded phone) is hung for storage. Cap
122
includes an extended lip
128
that extends beyond at least a portion of perimeter
108
(e.g., a top portion) to prevent collar microphone
10
from inadvertently slipping off cradle assembly
100
. Collar microphone
10
and most banded headphones and band-mounted microphones include a wire for coupling to a computer, for example. Cradle assembly
100
provides storage of such wires, which can be draped over cradle assembly
100
with microphone
10
or positioned within interior
110
. Extended lip
126
also prevents wires draped over cradle assembly
100
from slipping off.
The microphone wires may be stored within cradle assembly
100
to provide a neater desktop or workspace appearance when the microphone is not in use. For example, the wire can be wrapped around stem
126
when cap assembly
120
is removed, either partly or completely, from stand
106
. The wire portions extending to the microphone and to the computer jack would pass between cap
122
and stand
106
. In this implementation, accommodations for these wire portions allow cap assembly
120
and stand
106
to remain fitted closely even with these protruding wires.
FIGS. 14 and 15
are respective front and bottom views of stand
106
showing a pair of slots
130
and
132
within a bottom portion of perimeter
108
. Slots extend inwardly from an outer edge
134
of perimeter
108
. In this illustration, slots
130
and
132
are canted away from each other.
FIG. 16
is an exploded side view of cap assembly
120
, which includes a cap portion
140
and a base portion
142
that are secured (e.g., bonded) together when assembled.
FIG. 17
is a rear view of cap assembly
120
illustrating extended lip
128
relative to perimeter
108
(in dashed lines) of stand
106
. This illustration shows that extended lip
128
extends beyond perimeter
108
over half of its extent.
While the present invention has been described in terms of a preferred embodiment, it will be appreciated by one of ordinary skill that the spirit and scope of the invention is not limited to those embodiments, but extend to the various modifications and equivalents as defined in the appended claims.
Claims
- 1. A method of supporting a microphone around the neck of a user, comprising the steps of:positioning around the user's neck an arcuate resilient collar band defining an arcuate collar band path, the collar band having opposite ends defining an open section therebetween and an elongate neck pad rotatably connected to each opposite end, each neck pad having a length that is at least about 2 times greater than its width, and a width of no more than about 2 centimeters thereby defining a longitudinal axis, a neck pad mounted to each opposite end of said collar band such that said neck pad is substantially in the collar band path, and wherein said open section is located at a front portion of the collar band and each neck pad is rotatable about the longitudinal axis; positioning in an operative position in the vicinity of the user's mouth a microphone mounted to the collar band, wherein the microphone is mounted on the distal end of a microphone boom that is pivotally connected at its opposite end adjacent said end of the collar band to permit rotation of the microphone boom about a first axis, and wherein the second positioning step includes the step of pivoting said microphone boom about said first axis.
- 2. The method of claim 1 wherein the first positioning step includes the step of adjusting the rotational position of each neck pad about said longitudinal axis.
- 3. The method of claim 1 wherein the neck pads are configured for resting on the user's neck in the area of the clavicles.
- 4. A collar microphone comprising:a resilient arcuate collar band having opposite distal ends defining an open section therebetween at a front portion thereof, the collar band defining an arcuate collar band path and the collar band including a deformable section opposite the open section configured for varying the collar band path; an elongate neck pad defining a longitudinal axis and rotatably mounted to each of the opposite distal ends such that said longitudinal axis is substantially in the collar band path, each neck pad mounted to the respective distal end in the collar band path for rotation about the longitudinal axis; a microphone boom having a microphone at one end and connected at the opposite end to the collar band to permit pivotal rotation of the microphone boom.
- 5. The collar microphone of claim 4 wherein the neck-contacting surface defines an elongate oblong having a first wider end adjacent the distal end of said collar band and wherein said neck-contacting surface tapers to a second narrower end in the direction from said first wider end to said second narrower end.
- 6. In a method of supporting a microphone in an operative position in the vicinity of a user's mouth, wherein the microphone is of the type worn by the user to permit the user to move about while the microphone is in use, the improvement comprising:locating around the user's neck a resilient arcuate collar band having opposite ends defining an opening therebetween and a collar band path, said collar band having an elongate neck pad defining a longitudinal axis rotatably connected to each opposite end such that the longitudinal axis of said neck pad is substantially in the collar band path, each neck pad defining a neck-contacting surface, said surface having a length and a width, wherein said length is at least about twice said width, and said width is no more than about 2 centimeters and wherein the locating step includes positioning the opening at a front portion of the user's neck and rotating said neck pads about said neck pad longitudinal axis.
- 7. The method of claim 6 wherein each neck pad defines an elongate oblong neck-contacting surface having a first wider end adjacent the distal end of said collar band and wherein said neck-contacting surface tapers to a second narrower end in the direction from said first wider end to said second narrower end, and wherein each neck-contacting surface is configured for contacting the user's neck in the area of the clavicles.
- 8. The method of claim 6 wherein the microphone is mounted on the distal end of a microphone boom that is pivotally connected at its opposite end to said end of the collar band to permit rotation of the microphone boom about a first axis, and wherein the second locating step includes the step of pivoting said microphone boom about said first axis.
US Referenced Citations (11)
Foreign Referenced Citations (2)
Number |
Date |
Country |
9914205 |
Sep 1999 |
GB |
1029192 |
Jan 1989 |
JP |