 |
Claims  |
|
|
I claim:
1. A reversible headset comprising:
a. headband means for supporting the headset on a wearer's head, including
a pad adapted to engage either side of the head and having an aperture
extending therethrough from front to back and open at both ends so that
when said headband means is on a wearer's head, there is always a front
opening aperture in the pad, whether the pad is on the left or right side
of the head;
b. beam means having one end slidable into either end of said aperture so
that when said one end of the beam means is inserted in the front end of
the aperture, the other end of the beam means projects forwardly from the
pad;
c. transducer housing means mounted on the forwardly projecting beam means;
d. an earphone transducer within the housing means; and
e. ear tube means having one end adapted to engage an ear of the wearer and
defining an acoustic path between the ear and the transducer;
f. said headset being reversible from a first configuration in which the
ear tube means is adjacent one of the wearer's ears to a second
configuration in which the ear tube means is adjacent the other of the
wearer's ears by removing the beam means from one end of the aperture and
inserting it in the opposite end of the aperture.
2. A headset as in claim 1, in which said headband means includes:
a. a yoke adapted to fit over a wearer's head; and
said pad means and a second pad means, respectively located at the opposite
ends of the yoke and adapted to engage the opposite sides of the wearer's
head, said aperture extending through one of said pad means.
3. A headset as in claim 2, in which:
a. said one pad means includes an elongated leaf spring biasing the beam
means against one side of the aperture to hold it frictionally in place
therein.
4. A headset as in claim 3, in which:
a. said beam means is adjustable lengthwise of the aperture;
b. said spring is elongated and engages the middle of said one side of the
aperture when there is no beam means in the aperture; and
c. said beam means in any operating position within the aperture is engaged
by the middle of the spring and held frictionally against said one side of
the aperture.
5. A headset as in claim 4, in which said spring has tips bent over to
engage the housing, so as to prevent end-wise movement of the spring
through the aperture.
6. A headset as in claim 3, including:
a. a projection on the side of the beam means opposite the spring; and
b. a channel in the housing receiving the projection, said channel being
closed at its ends to engage the projection and thereby prevent a movement
of the beam means out of the aperture beyond a range of positions in which
it is engaged by the middle of the spring, said beam means being removable
from the aperture by compressing the spring so that the projection clears
one of said closed ends.
7. A headset comprising:
a. headband means for supporting the headset on the wearer's head, said
headband means including a yoke adapted to extend transversely over the
wearer's head and a casing connected to one end of the yoke;
beam means projecting forwardly from said casing;
c. transducer housing means mounted on the projecting beam means;
d. an earphone transducer within the housing means;
e. ear tube means; and
f. means defining an acoustic path between the ear tube means and the
earphone transducer, said acoustic path defining means comprising:
1. an acoustic tube connecting the earphone transducer and an opening in
the housing means;
2. a first rotatable coupling between the housing means and the projecting
end of the beam means, said coupling including a first element on the
housing means and encircling the opening, and a second element on the beam
means cooperating with the first element;
3. a second rotatable coupling between said projecting end of the beam
means and the ear tube means, said first and second couplings having
connecting apertures forming part of said acoustic path.
8. A headset as in claim 7, in which each of said couplings comprises
cooperating separable male and female elements and means resisting
coupling and separation of said elements.
9. A headset as in claim 7, in which one of the couplings comprises:
a. an aperture in one side of the beam means and extending part way through
the beam means;
b. said other coupling comprises a projection concentric with said aperture
and on the other side of the beam means, and an opening through said
projection into said aperture.
10. A headset as in claim 8, in which the resisting means of one of said
couplings comprises an O-ring captured in a recess in the wall of the
last-mentioned aperture.
11. A headset as in claim 8, in which the resisting means of one coupling
comprises an inward projection on the wall of the female element and an
outward projection on the wall of the male element, said elements being of
yieldable material, so that the projections can snap over one another
during insertion and removal.
12. A headset as in claim 1, including an offset on the beam means between
said one end and said other end to bring the other end closer to the
wearer's head than the one end.
13. A headset as in claim 1, including:
a. a microphone;
b. articulated joint means supported on said housing means;
c. a conduit having one end connected to the articulated joint, said
conduit being curved so that the microphone is disposed laterally of the
housing means;
d. conductor means connected to the microphone and extending through the
conduit and the joint into the housing; and
e. means including the conduit and the joint supporting the microphone for
adjustment of its operating position with respect to the wearer's mouth.
14. A headset as in claim 13, in which:
a. said microphone is reversible;
b. said conduit is curved sufficiently to support the microphone adjacent
the wearer's mouth when the headset is in place on the head;
c. said joint permits rotation of the conduit at least 180.degree. about
its own axis to allow the microphone to be used on either the left or the
right-hand side of the head.
15. A headset as in claim 13, in which said joint permits tilting of the
conduit at least 15.degree. about any axis perpendicular to the conduit to
adjust the position of the microphone relative to the mouth.
16. A reversible headset comprising:
a. headband means for supporting the headset on a wearer's head, said
headband means having an aperture extending horizontally therethrough,
parallel to a head engaging surface thereof;
b. beam means having one end slidable into either end of said aperture, so
that the beam means may be mounted with its other end extending forwardly
from said headband means on either side of the head;
c. housing means supported on the other end of the beam means;
d. a reversible microphone having sound receiving openings on two opposite
faces;
e. articulated joint means supported on said housing means;
f. a conduit having one end connected to the microphone and the other end
connected to the joint, said conduit being curved so that the microphone
is disposed laterally of the housing means;
g. conductor means connected at one end to the microphone and extending
through the conduit and the joint into the housing means; and
h. means including the conduit and the joint supporting the microphone for
adjustment of its operating position with respect to the wearer's mouth on
either the left or right-hand side of the head.
17. A headset as in claim 16, in which:
a. said conductor means comprises continuous wires connected to the
microphone, and extending through the conduit to terminals in the housing
means; and
b. said joint includes means limiting rotation of the conduit on the
housing means to less than one revolution.
18. A headset comprising:
a. headband means for supporting the headset on the wearer's head, said
headband means including a yoke adapted to extend transversely over the
wearer's head and a pad connected to one end of the yoke;
b. beam means projecting forwardly from said pad and having a passage
extending through its forward end;
c. transducer housing means mounted in said passage and supported by the
beam means;
d. an earphone transducer within the housing means;
e. ear tube means supported by the beam means; and
f. means defining an acoustic path from the earphone transducer through
said passage to the ear tube means.
19. A headset as in claim 18, including:
a. a microphone in said housing;
b. acoustic tube means extending between the wearer's mouth and the
microphone, said acoustic tube means including an articulated joint
connecting the tube and the housing, said joint permitting rotation and
tilting of the tube with respect to the housing.
20. A headset as in claim 18, comprising:
a. a microphone;
b. a conduit supporting the microphone and extending therefrom to the
housing; and
c. an articulated joint connecting the conduit and the housing, said joint
permitting rotation and tilting of the conduit with respect to the
housing. |
|
 |
|
 |
Claims |
|
|
|
Description |
|
|
BRIEF SUMMARY OF THE INVENTION
A headset according to the invention employs a yoke adapted to fit over the
top of the wearer's head and having pad means at each end of the yoke for
engaging the sides of the wearer's head at areas spaced above the ears.
One of the pad means has an aperture extending horizontally through it
from front to back. A beam is insertable in either end of this aperture,
and when so inserted is adjustable to project from the aperture by varying
amounts. A leaf spring within the aperture holds the beam frictionally
against the opposite side of the aperture and maintains the adjustment.
The outer projecting end of the beam is provided with two opposed coupling
elements. The coupling element on one side of the beam cooperates with a
mating element on a transducer housing so as to support that housing on
the beam. The other coupling element cooperates with a mating element at
one end of an ear tube whose opposite end is fitted with an earpiece for
insertion into the wearer's ear. The transducer housing is provided
adjacent its lower end with an articulated joint.
In certain embodiments, a microphone is carried at the end of a conduit,
and the opposite end of the conduit is connected to the articulated joint.
One such embodiment includes wires from the microphone extending through
the conduit and the joint to electrical circuit elements within the
housing. In that embodiment, the joint includes rotation limiting means to
prevent twisting of the wires. In another such embodiment, the joint is
freely rotatable and a rotatable connector is provided for the conductors
of the microphone circuit.
In another embodiment, a voice transducer is located in the housing and
connected through an acoustic tube including an articulated joint to an
end of the tube adjacent the wearer's mouth.
The headset may be mounted on the wearer's head with the one pad means that
carries the beam either on the right or left side of the head. The beam
should be inserted in that pad means so that it projects forwardly
therefrom, with the microphone or voice tube adjacent the wearer's mouth
and the earpiece adjacent the wearer's ear for ready insertion therein.
DRAWINGS
FIG. 1 is a front elevational view of a headset embodying the invention.
FIG. 2 is a right side elevational view of the headset of FIG. 1.
FIG. 3 is a cross-sectional view taken on the line 3--3 of FIG. 2, on an
enlarged scale.
FIG. 4 is a cross-sectional view taken on the line 4--4 of FIG. 2, on an
enlarged scale.
FIG. 5 is a cross-sectional view taken on the line 5--5 of FIG. 4.
FIG. 6 is an exploded fragmentary, perspective view showing how the beam in
the headset of FIG. 1 is assembled when the earphone is to be used at the
wearer's left ear.
FIG. 7 is a fragmentary view similar to FIG. 6, showing how the headset is
assembled when the earphone is to be used at the wearer's right ear.
FIG. 8 is a fragmentary view on an enlarged scale, partly in elevation and
partly in section, on the line 8--8 of FIG. 2.
FIG. 9 is a fragmentary view on a still larger scale, partly in section, on
the line 8--8 of FIG. 2, and partly in elevation, and with certain parts
removed.
FIG. 10 is a cross-sectional view on the line 10--10 of FIG. 9.
FIG. 11 is a front elevational view, similar to a portion of FIG. 1,
illustrating another embodiment.
FIG. 12 is an exploded fragmentary elevational view of another
modification, similar to FIG. 9 but on a smaller scale.
FIG. 13 is a view similar to FIG. 12, but with the parts together which are
shown separated in FIG. 12.
FIG. 14 is a view taken on the line 14--14 of FIG. 13.
FIG. 15 is a view taken on the line 15--15 of FIG. 13.
FIG. 16 is an enlarged perspective view of a locking clip used in the
embodiment of FIGS. 12-15.
FIG. 17 is an exploded, framentary, sectional view taken on the line 17--17
of FIG. 12.
FIG. 18 is a view similar to FIG. 17, but with the parts together which are
shown separated in FIG. 17.
FIG. 19 is a cross-sectional view taken on the line 19--19 of FIG. 17.
FIG. 20 is a cross-sectional view taken on the line 20--20 of FIG. 17.
FIG. 21 is a perspective view of a part appearing in section in FIG. 17, 19
and 20.
DETAILED DESCRIPTION FIGS. 1-10
A headset according to the invention includes a yoke 1, best seen in FIGS.
1, 2, 6 and 7, adapted to fit over a wearer's head and two pad means 2 and
3 at the opposite ends of the yoke. The pad means 2 comprises a resilient
pad 4 of sponge rubber or the like fixed to a plate 5 which is pivoted at
6 to a casing 7 attached by any suitable means to an end of the yoke 1.
The pad means 3 comprises a resilient pad 8 (FIGS. 1, 4, 6 and 7) of sponge
rubber or the like fixed to a plate 10. The plate 10 is attached to a
casing 11 which is connected by any suitable means to the other end of the
yoke 1.
The casing 11 is provided with an aperture 11a (FIGS. 2-5) extending from
front to rear of the casing, and defined by a channel closed at its open
side by a block 12 (FIGS. 4 and 5), which may be bonded in place on the
casing 11. Before bonding the block 12 to the casing 11, an elongated leaf
spring 13 having bent over ends 13d is inserted in the channel with its
ends in apertures 12a in the block, so that after the block 12 is bonded
in place, the leaf spring 13 is captured in the aperture 11a.
The leaf spring 13 is of a generally sinuous contour so that it engages the
inner surface of the block 12 at two spaced localities, as shown at 13a in
FIG. 5, and the middle of the spring engages the opposite side of the
aperture 11a at 13b. The outer side of the aperture 11a is provided with a
narrow channel 11b. The ends of the channel 11b are closed by the ends of
the casing 11.
A beam 14 has one end 14a slidable into the aperture 11a from either end
thereof. The beam 14 carries a projection 15 on its outer surface.
Projection 15 rides in the channel 11b. When the beam 14 is in place in
the casing 11, it is frictionally held by the spring 13, near the middle
of the aperture 11a. The projection 15 prevents movement of the beam out
of the aperture beyond a range of operating positions in which it is
engaged by the middle of the spring 13.
The outer end of the beam 14 has an offset 14b, and beyond the offset
carries a double acoustic coupling element 16, best seen in FIG. 8. The
double coupling element 16 is adapted to engage a cooperating ear tube
coupler 17, and also to engage a cooperating coupling element 20a on a
transducer housing 20. The double coupling element 16 has a boss 16a which
cooperates with a recess 17a formed on the ear tube coupler 17. The double
coupling element 16 also has a recess 16b which cooperates with the
projecting coupling element 20a. An O-ring 18 is captured within a channel
16c formed in the double coupling element 16 and is effective to hold the
projecting coupling element 20a in the recess 16b after the two are pushed
together.
The ear tube coupler 17 is connected to an ear tube 21 having at its end an
earpiece 22 (see FIG. 1) adapted to be inserted into the ear canal of the
wearer. The earpiece 22, tube 21, coupler 17, double coupling element 16,
and projecting coupling element 20a are provided with connecting internal
passages which define an acoustic path from a transducer 19 in the
transducer housing 20 to the ear of the wearer.
If the headset is of the "listen only" type, there is only the transducer
19 in the housing 20. If the headset is to be adapted for two-way
communication, then a microphone 23 (FIG. 1), which may be of the
reversible type shown in the copending application of Lech Poradowski,
Ser. No. 592,632, filed July 3, 1975, or any other suitable microphone may
be fixed on the end of a conduit 24. The other end of the conduit 24 is
attached to a ball 25 of an articulated joint 25, 26 (FIG. 9) having a
socket 26 integral with or attached to the transducer housing 20.
Electrical conductors 27 covered by insulating sheaths 27a lead from the
microphone 23 through communicating apertures in the ball 25 and socket 26
to suitable terminals 30 or other electrical apparatus in the housing 20.
A cable 31 connects the terminals in the housing 20 to suitable external
circuitry. The ball and socket joint 25, 26 permits rotation of the
conduit 24 at least 180.degree. about the vertical axis of the socket 26,
as viewed in FIG. 9, so that the microphone may be used on either the left
or right side of the wearer's head. Furthermore, the ball and socket is
constructed to permit tilting of the conduit at least 15.degree. about any
axis in the plane perpendicular to the vertical axis of the socket 26.
When the headset is in use on the left-hand side of the wearer's head, the
beam is assembled on the casing 11 in the manner shown in FIG. 6, so that
the transducer housing 20 is located forwardly of the wearer's ear. The
flexible ear tube 21 may be formed as required to bring the earpiece 22
into alignment with the wearer's ear. The microphone 23 may be adjusted by
sliding the beam 14 in or out and by moving the parts of the articulated
joint 25, 26 to bring the microphone close to the left corner of the
wearer's mouth.
If it is desired to wear the headset with the earpiece 22 in the right ear
of the wearer, then the beam 14 is assembled on the casing 11 as
illustrated in FIG. 7. The coupling between the transducer housing and the
beam allows the transducer housing to be rotated so that it depends from
the beam on either side of the wearer's head. The conduit 24 may now be
rotated on the articulated joint to bring the microphone 23 into position
adjacent the right-hand corner of the wearer's mouth. Since the microphone
may receive sound through either of its two major faces, it does not
matter which of those two faces is nearest the wearer's mouth.
The offset 14b (FIG. 5) is effective to bring the double coupling element
16 and hence the transducer housing 20, the ear insert 22 and the
microphone 23 closer to the wearer's head than the slidable end 14a of the
beam.
The ball 25 of the articulated joint is provided with a projection 32,
which moves in a recess 26a formed in the socket 26. The ends of the
recess 26 limit the rotation of the ball to an angle less than
360.degree., and preferably somewhat greater than 180.degree.. This
limitation of angular movement prevents the wires 27 from getting
excessively twisted due to successive readjustments of the microphone
position.
FIG. 11
In this embodiment, the microphone 23 and tube 24 of FIG. 1 are replaced by
an acoustic tube 33 connected through a telescope coupling 34 and another
acoustic tube 35 to an articulated joint 36. In this embodiment, the
microphone is located in the housing 20, and the sound is conveyed through
the acoustic path 33, 34, 35, 36 to the microphone.
It is, of course, possible to adapt either of the headsets illustrated for
use as a microphone only headset, by omitting the ear tube and the
earphone transducer 19. Alternatively, either headset may be adapted for
use as an earphone only headset by omitting the microphone 23 and tube 24
in that embodiment of FIG. 1 or by omitting the acoustic tube 33, 35 and
the microphone in the embodiment of FIG. 11.
Although the headsets illustrated employ a single earphone, it should be
readily apparent that they can be adapted to use dual earphones by
duplicating the pad means 3 and the associated earphone parts on both ends
of the yoke 1. Such a dual earphone headset is reversible as to the left
or right-hand location of the microphone, in the same manner as the single
earphone headsets illustrated.
FIGS. 12-21
These figures illustrate a modified transducer housing generally indicated
at 41 and a modified joint 42 which may be used to connect the microphone
conduit 24 to the transducer housing 41.
The housing 41 includes a body 43, an inside cover 44 on the side of the
body nearest the wearer's head, and an outside cover 45 on the opposite
side of the body. A coupling element 44a corresponding in structure and
function to the coupling 20a of FIG. 9, projects from the cover 44. The
coupling element 44 has an internal passage communicating through another
passage in the body 43 to an earphone transducer 46.
The joint 42 has a rotatable electrical connector plug 47 on its upper end.
The plug 47 is receivable in the receptacle 50 at the lower end of the
body 43. After the plug 47 is inserted in the receptacle 50, it may be
locked therein by a retainer 51 (see FIGS. 14-16). The retainer 51 is
generally U-shaped, having two legs 51a which engage a groove 42a (FIGS.
12 and 17) formed on the housing of the joint 42 and also engage channels
43 a (FIG. 14) formed in the body 43. After the plug 47 is inserted in the
receptacle 50, and the retainer 51 is in place in the body 43 and joint
42, a cable 52 (FIGS. 13 and 15) carrying conductors connected to the
transducer 46 and also to a terminal board 48 is inserted through an
aperture 45 a in the lower end of the cover 45. The cover 45 is then
placed on the body 43, so that a pair of prongs 51b on the retainer 51
engage the cable 52 as shown in FIGS. 15 and lock it against accidental
withdrawal from the housing 41.
The covers 44 and 45 are fastened together with the body 43 by means of
screws 53, best seen in FIG. 15.
The connector plug 47 is a conventional telephone type having an axial
conductor rod 54 (FIG. 17) with an enlarged head 54a. The rod 54 is
enclosed in an insulating sheath 55, which is in turn surrounded by a
conductive sleeve 56. When the plug 47 is inserted in the receptacle 50
formed on the body 43, the head 54a engages a spring contact 57 (FIGS. 17
and 18), and another spring contact 58 engages the sleeve 56. Contact 58
is connected through a wire 61 to a terminal 62 accessible inside the
cover 45. Contact 57 is connected by means of another wire 63 to a
terminal 64, also accessible inside the cover 45.
The connector plug 47 is supported on the left end (as viewed in FIG. 17)
of a cylinder 65 of insulating material. The cylinder 65 is open at its
right-hand end as viewed in FIG. 17 and is partly closed at its left end
by a wall which supports at its center a metal eyelet 66 through which the
insulating sleeve 55 and the central rod 54 pass. The outer contact sleeve
56 abuts against the outer surface of the eyelet 66. The right-hand end of
the eyelet 66 holds a terminal ring 67 against the closed end of the
cylinder 65. The terminal ring 67 is formed with an integral cylinder 67a
which extends to the right along the lower side of the cylinder 65 and is
attached at its end to a wire 70 which extends through the microphone
conduit 24. Another wire 71 in the microphone conduit 24 is attached at
its left end to the axial conductor rod 54.
The cylinder 65 is mounted on the left end of a metal sleeve 72 by means of
a pin 78 (see FIG. 19). The right-hand end of sleeve 72 is provided at its
center with hemispherical recess 72a which serves as a seat for a ball 73
attached to the end of the microphone conduit 24. The sleeve 72 is
enclosed within a metal casing 74 which is rolled over at its right-hand
end to engage a bushing 75 which holds the ball 73 in place on the seat
72a. Another sleeve 76 is located within the casing 74 at its left-hand
end. A coil spring 77 is retained in compression between the sleeves 72
and 76. The ball 73 is provided at one side with a pin 80, which projects
into an aperture 72b in the sleeve 72. The aperture 72b defines the limits
of universal movement of the ball 73 on its seat.
The connector plug 47 is freely rotatable in engagement with the contacts
57 and 58, so that electrical contact from the microphone wires 70 and 71
to the wires 61 and 63 is maintained in all angular positions of that
connector. Hence, with the joint structure illustrated, the ball 73 and
its associated seat 72a are only required to accommodate tilting movements
of the conduit 24 with respect to the casing 74 and the parts contained
therein. The conduit 24 is free to rotate, but the casing 74 and all the
parts supported within it rotate with the conduit 24 except for the small
amount of free motion permitted by the aperture 72b surrounding the pin
80. In view of the unlimited rotation capability of the casing 74 and
conduit 24, the ball 73 and seat 72a essentially function as a pivot and
could be replaced by a suitable pivot.
The casing 74 and the sleeve 76 are cut radially at 42a to provide the
recess for receiving the legs 51a of retainer 51. A yoke 81 (FIGS. 17 and
18) of insulating material fits within the body 43. The contacts 57 and 58
are supported on a fitting 82 which extends through a threaded aperture in
the bight of the yoke 81 and is held in place on the yoke by means of a
nut 83.
It should be noted that in the joint 42, the tilting movements of conduit
24 are accommodated by the ball 73 moving on its seat 72a, while rotating
movements of that conduit are accommodated by rotation of the casing 74
and connector plug 47. The rotation function is therefore separated from
the tilting function. The casing 74 is capable of unlimited rotation with
respect to the body 43 without causing any twisting of the wires 70 and 71
in the conduit 74.
* * * * *
|
|
|
|
|
|
|
Description |
|
