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I claim:
1. A pushbutton switch and actuator mechanism or electrically connecting a
pair of conductors, each conductor having an end retained in said switch,
and comprising:
a housing including a barrel with an axis and head portion generally
transverse to said axis,
a cover secured to said head with said conductor ends secured, in
electrically non-contacting relation, between said head and cover,
said head and cover including insulating means to prevent an electrical
connection between said conductors through either said head or said cover,
a contact moveable along said axis for bridging said conductor ends for
electrically connecting said conductors,
means mounting said contact for said axial movement to make or break said
electrical connection,
a plunger axially slidable in said barrel and engaging said mounting means
for projecting said mounting means in an axial direction,
aligned apertures axially extending through said moveable contact and said
housing, respectively,
biasing means yieldably biasing said contact, mounting means and plunger
for return to a retracted position in which position said contact bridges
said conductors,
a ratchet mechanism on said housing and mounting means for retaining said
mounting means in a projected position against the bias of said biasing
means,
actuator means positioned within said axially aligned apertures for
selectively stroking said plunger axially within said barrel,
said plunger transmitting axial motion to said mounting means on a first
stroke for operating said ratchet mechanism to retain said mounting means
in a projected position at the conclusion of said stroke in which position
said contact is out of engagement with said conductor ends,
said plunger transmitting axial motion to said mounting means on a second
stroke for operating said ratchet mechanism to allow said biasing means to
return said contact and mounting means to a retracted position, in which
position said contact is in engagement with said conductor ends.
2. The switch of claim 1 comprising a momentary off switch which further
includes:
means for preventing operation of said ratchet mechanism whereby said
contact normally bridges said conductors and axial motion of said plunger
opens said electrical connection only for so long as said plunger is
projected.
3. The switch of claim 2 in which:
said moveable contact comprises a thimble-like contact having a cylindrical
portion and at one end thereof an annular flange for contacting the coined
ends of said conductors,
said cover includes a guide stud aligned with said axis,
said yieldable biasing means includes a coil spring mounted in said
cylindrical portion and bearing against said guide stud, and
said means preventing operation of said ratchet mechanism includes a washer
mounted in said cover about said guide stud.
4. The switch of claim 1 in which each of said conductors includes, at an
end external to said switch, a connector for making connection to an
electrical conductor.
5. The switch of claim 4 in which said connector is a spade connector.
6. The switch of claim 1 in which said moveable contact comprises a
thimble-like contact having a cylindrical portion and at one end thereof
an annular flange for contacting the coined ends of said conductors.
7. The switch of claim 6 in which said biasing means includes a coil spring
located within said cylindrical portion and biasing said contact against a
cylindrical stud comprising a portion of said cover and aligned with said
axis.
8. The switch of claim 6 in which said cover includes:
an annular recess aligned with said axis for receiving said annular flange,
and
a cylindrical stud located in said recess and aligned with said axis.
9. The switch of claim 8 in which said biasing means comprises a coil
spring located between said guide stud at least partially within said
cylindrical portion.
10. The switch assembly according to claim 1, wherein said actuator means
comprises a strand of material passing through said aligned switch
assembly,
said strand including stop means attached to a first end portion adjacent
said plunger for preventing said first end portion from being drawn
through said aligned apertures.
11. The switch assembly according to claim 10, wherein said stop means
comprises a tie knot formed in said first end portion, with said tie knot
having a larger diameter than an aperture through said plunger in
alignment with the apertures through said moveable contact and housing.
12. A switch assembly according to claim 10, wherein said strand is formed
of a filament of fish line type material.
13. A pushbutton switch for electrically connecting a pair of conductors,
each having coined ends retained in said switch, said switch comprising:
a housing including a barrel with an axis and a head portion generally
transverse to said axis,
a cover secured to said head with said coined conductor ends secured, in
electrically non-contacting relation, between said head and cover,
a moveable contact which is moveable along said axis for bridging said
coined ends for electrically connecting said conductors,
plunger means mounting said moveable contact for axial movement to break an
electrical connection, said plunger means axially slidable in said barrel,
aligned apertures axially extending through said plunger, said moveable
contact and said housing, respectively,
biasing means yieldably biasing said moveable contact and said plunger
means to a retracted position in which position said moveable contact
bridges said conductors,
actuator means positioned within said axially aligned apertures for
selectively stroking said plunger axially within said barrel,
said moveable contact normally retained in bridging relation with said
conductors under the influence of said biasing means and moveable to a
projected position in response to said actuator means causing axial
projection of said plunger means.
14. A pushbutton switch for electrically connecting a pair of stationary
contacts retained in said switch, said switch comprising:
a housing including a barrel with an axis and head portion generally
transverse to said axis,
a cover secured to said head with said stationary contacts secured, in
electrically non-contacting relation, between said head and cover,
a moveable contact which is moveable along said axis for bridging said
stationary contacts and electrically connecting conductors, connected to
said stationary contacts,
plunger means mounting said moveable contact for axial movement to break
said electrical connection, said plunger means being axially slidable in
said barrel,
aligned apertures axially extending through said moveable contact, said
plunger and said housing, respectively,
biasing means yieldably biasing said moveable contact and plunger means to
a retracted position in which position said contact bridges said
conductors,
strand actuator means extending through said biasing means and positioned
within said axially aligned apertures in said moveable contact, plunger
and housing for selectively stroking said moveable contact axially within
said barrel.
15. A pushbutton switch for electrically connecting a pair of stationary
contacts retained in said switch, said switch comprising:
a housing including a barrel with an axis and head portion generally
transverse to said axis,
a cover secured to said head with said stationary contacts secured, in
electrically non-contacting relation, between said head and cover,
a moveable contact which is moveable along said axis for bridging said
stationary contacts and electrically connecting conductors, connected to
said stationary contacts,
plunger means mounting said moveable contact for axial movement to make
said electrical connection, said plunger means being axially slidable in
said barrel,
aligned apertures axially extending through said moveable contact, said
plunger and said housing, respectively,
biasing means yieldably biasing said moveable contact and plunger means to
a retracted position in which position said moveable contact is out of
contact with said stationary contacts, and
strand actuator means extending through said biasing means and positioned
within said axially aligned apertures in said moveable contact, plunger
and biasing for selectively stroking said moveable contact axially within
said barrel. |
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Claims |
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Description |
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FIELD OF THE INVENTION
The present invention relates to a pushbutton switch assembly, and more
particularly to actuator mechanisms for such switches.
BACKGROUND OF THE INVENTION
Pushbutton switch assemblies of the type discussed in copending application
Ser. No. 873,030, now U.S. Pat. No. 4,175,222, permit an operator to push
or depress an actuating plunger to engage or disengage an electrical
connection within the switch. Heretofore pushbutton switches of the above
referred to type have not been applied to applications in which the
operator does not have access to the plunger to actuate the switching
operation. For example, in a commercially successful closet light assembly
both the light and its control switch are mounted within a support
structure, wherein the switch assembly is not directly accessible to the
operator. As a result, a non-pushbutton switch and pull cord actuator is
now used which is both cumbersome and relatively complex.
SUMMARY OF THE INVENTION
As will be discussed in detail hereafter, applicant's new and useful
invention is a pushbutton switch assembly having a simple actuating
mechanism which is adaptable for use in inaccessible locations.
A preferred embodiment of the present invention comprises an actuator for a
pushbutton switch capable of electrically connecting a pair of conductors
each having ends retained in the switch. The switch has a housing
including a barrel having an axis and a head portion generally transverse
to the axis. A cover is secured to the head with the conductor ends
secured in non-conducting relation between cover and head. A contact is
moveable along the axis for bridging the conductor ends. A sleeve mounts
the contact for axial movement and a plunger, mounted in the barrel,
engages the sleeve for projecting the sleeve and contact against the
action of a coil spring biasing the contact, sleeve and plunger to a
retracted position in which the contact bridges the conductor ends. A
ratchet mechanism, for rotary indexing fo the sleeve, serves to latch the
contact and sleeve, on alternate successive operations of the plunger in
said retracted position and in a projected position wherein the contact is
out of engagement with the conductor ends.
The switch actuator mechanism comprises an elongated strand of material,
such a fish line or the like, which passes completely through a plurality
of axially aligned apertures extending through the switch assembly.
Suitable securing means, which may be a simple tie knot adjacent an outer
surface of the plunger prevents the strand from being accidently drawn
through the switch assembly. To engage or disengage an electrical
connection within the switch, an operator grasps and pulls on a free end
of the strand actuator to depress the plunger and either engage or
disengage the electrical connection.
The strand actuator obviates the need for direct contact between the
operator and the switch plunger, which allows the pushbutton switch to be
mounted within a housing with only the strand actuator being accessible to
the operator.
BRIEF DESCRIPTION OF THE DRAWINGS
A preferred embodiment of the present invention will now be described in
more detail in the following portions of this specification when taken in
conjunction with the attached drawings in which like reference characters
identify identical apparatus and in which:
FIG. 1 is an exploded view of the inventive switch;
FIG. 2 is a cross-section of the switch and actuator mechanism taken
through an axis thereof;
FIG. 3 is a cross-section taken on the lines 3--3;
FIG. 4 is a section of the switch taken on the lines 4--4;
FIG. 5 is a section similar to FIG. 4 showing, however, a modified version
of the switch;
FIG. 6 illustrates the switch with connectors on the conductors, external
to the switch housing;
FIG. 7 is a developed view of the interior chamber of the barrel end
ratchet assembly; and
FIG. 8 is a cross-section view taken on the lines 8--8 of FIG. 2.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
FIG. 1 is an exploded view of the several components of a switch embodying
the present invention. More particularly, the switch comprises a housing
10 including an externally threaded barrel 11 having an axis 30 and a head
portion 12 which is generally transverse to the axis 30. The head portion
includes a plurality of pins 35-39, whose purpose will be discussed
hereinafter. A generally cylindrical plunger 13 is arranged for sliding
movement within the barrel 11 along the axis 30 with one end 13B available
for projection along the axis 30. Fitted within the plunger 13 is a
generally cylindrical sleeve 14 also aligned on axis 30 and arranged, by
apparatus to be described, for motion longitudinal of the axis 30 and
further arranged for rotational movement about the axis 30. A contact 15
is arranged to fit within the cylindrical sleeve 14 for motion along the
axis 30. The contact 15 comprises a thimble-like contact having a
generally cylindrical portion 18 and an annular flange 19 at one end
thereof. A coil spring 16 is arranged to fit within the cylindrical
portion 18 of the contact 15 and to bear against the contact 15 and a
guide stud 25. The guide stud 25 comprises a portion of a cover 17 and
serves to partially define an annular recess 26 in the cover 17.
Additional recesses 35A-39A are included in the cover 17 for mating with
the pins 35-39 of the head 12. The interference fit between the pins 35-39
and the recesses 35A-39A secure the cover 17 to the head 12 when the
switch is assembled as well as locating the cover 17 properly with respect
to the head 12.
The function of the switch is to selectively make or break an electrical
connection between a pair of conductors, such as conductors 20 and 22. To
this end, each of the conductors 20 and 22 may be provided with a terminal
21 and 23, respectively. The terminal, whether in the form of coined end
on the conductor (FIG. 1) or a crimped on terminal (FIG. 2) is positioned
so its shoulders are held by a pair of the pins such as 35-36 or 37-38 to
properly locate the conductors 20 and 22 within the switch 10 (see in this
regard FIG. 3). To make the electrical connection the flange 19 of the
contact 15 bridges the coined ends 21, 23. Of course, at least the flange
19 (and preferably the entire contact 15) is formed of a conducting
material.
FIG. 2 is a cross-section of the switch in the closed condition, and FIG. 3
is a section taken on section lines 3--3 of FIG. 4. FIG. 4 illustrates
still a different section of the switch taken on the lines 4--4 of FIG. 3.
FIG. 4 illustrates the switch in the closed condition, wherein the flange
19 of the contact 15 bridges the coined ends 21 and 23 of the conductors
20 and 22 to establish an electrical connection. The legend "ON" indicates
that when the flanged end 19 is in the closed condition shown, the switch
is "ON". The adjacent dotted showing of flange 19, corresponding to the
"OFF" legend, indicates that this is a second position of contact 15
wherein the switch is in the "OFF" condition. Finally, a second dotted
showing of flange 19, associated with the legend "PROJECTED" indicates
that as the plunger 13 is depressed, the flange 19 reaches the position
shown. Actually, the contact 15 has two stable positions, the "ON" and
"OFF" positions. The first of these positions is achieved through the
action of the coil spring 16 biasing contact 15 against the stud 25. This
biasing force establishes a solid electrical connection between the flange
19 and the coined ends of conductors 21 and 23. The second stable
condition of the switch is achieved through the operation of a ratchet
mechanism to be described hereinafter.
As shown in FIG. 1, plunger 13 carries a plurality of lugs 13A (as shown in
FIG. 1, four lugs are provided). Corresponding extended recesses or ways
are provided in the interior of the barrel 11 to allow the plunger 13 to
move parallel to the axis 30, but the lugs prevent rotation of the plunger
13. Furthermore, the projecting end of the plunger 13 includes a plurality
of spear pointed camming teeth. The sleeve 14, when telescoped into the
bore of the plunger 13, has a plurality of rearwardly projecting camming
teeth which cooperate with the forwardly projecting camming teeth on the
plunger 13. In addition to the camming teeth of sleeve of sleeve 14, the
sleeve 14 also carries a plurality of latch dogs projecting radially from
alternate ones of the camming teeth, each of the dogs have a rear end of
sawtooth form defining a camming ramp extending diagonally the full width
of the dog. As shown in FIG. 1, a sleeve 14 carries four latch dogs which
engage alternately the four extended recesses or ways in barrel 11 and
four partial recesses or ways which limit axial motion of sleeve 14 in an
intermediate or off position and function as latching pockets.
In the retracted position of the sleeve 14, the latch dogs are received in
ways defined in the inner circumference of the barrel 11, these ways also
serve to guide lugs 13A. At the forward or projecting end of the ways,
diagonal shoulders define camming ramps. The outer diameter of the latch
dogs on the sleeve 14 is greater than the inner diameter of shoulders in
the camming ramps defined in the inner surface of the barrel 11. As a
result, when the dogs of sleeve 14 are urged rearwardly by the coil spring
16, they engage shoulders and the camming action effects rotary indexing
of the sleeve 14 to move the dogs into the latching pockets to establish a
latched position of the switch. The dimensions of the ways and camming
ramps associated with the outer surface of sleeve 14 establish the "OFF"
position of the switch, in which the flange 19 achieves the "OFF" position
illustrated in FIG. 4. A more complete description of the inter-action of
the lugs, latch dogs and various camming surfaces of the plunger 13,
sleeve 14 and barrel 11 is found in U.S. Pat. No. 3,694,603. While that
patent accurately describes the operation of the aforementioned components
which form a ratchet mechanism, which in certain rotary positions of
sleeve 14 allow the flange 19 to be held in the "OFF" condition against
the action of the spring 16, the remaining components of the switch,
described here, have significant differences. Specifically, when the
contact 15 is held by the ratchet mechanism in the projected position
against action of the spring 16, the switch is open, in contrast to the
teachings of U.S. Pat. No. 3,694,603 in which position the switch is
closed. The washer 26' (shown dotted in FIG. 1) is not used for the
push-push embodiment of FIGS. 1-4 but may be used in the momentary off
embodiment later described.
More particularly, the ratchet mechanism includes plunger 13, sleeve 14, as
well as a recess or ways in the inner surface of the barrel 11. FIG. 7 is
a developed view of the interior chamber 40 of barrel and ratchet 11, and
FIG. 8 is a cross-section of the barrel taken at line 8--8 of FIG. 2. The
interior chamber 40 is internally splined as shown in FIGS. 7 and 8;
however, a ratchet with four rather than eight splines is preferred from
the standpoint of wear resistance. The plunger 13 has lugs 13a which are
slidably received between diametrically opposed pairs of circumferentially
spaced ribs 41. Thus, plunger 13 is freely reciprocable but fixed against
rotation.
Sleeve 14 is telescoped into plunger 13 with its rearwardly projecting
camming teeth 42 in axially opposed relation to the camming teeth 43 of
the plunger 13. The cooperation of the camming teeth 42 and 43 produce
rotary indexing of sleeve 14 when it is released for such rotation by
being projected. Latch dogs 44 are received in ways 45 defined alongside
the ribs 41. The spaces between ribs 41 are alternately deeper (that is,
of greater radius from the axis 30) and shallower, the deeper spaces being
identified as ways 45, and the shallower spaces being made shallow by webs
46 between the splines. At the forward end, the ribs 41 and webs 46 have
diagonal shoulders 47 defining camming ramps extending from one rib 41 to
the adjacent rib of the pair to define a camming pocket 48. The outer
diameters of the latch dogs 44 are greater than the inner diameter of the
shoulders 47. When contact 15 and ratchett 11 are urged rearwardly by the
spring 16, dogs 44 will engage shoulders 47 with a camming action to
effect rotary indexing of the sleeve 14 to move dogs 44 into pockets 48 to
establish a latched position of the switch. In between pairs of ribs 41
are flat lands 49 with diagonal forward ends defining camming ramps 50
which may assist indexing to latched positions by engagement with dogs 44
alternate to those in latching position.
In a preferred embodiment of the invention each of the switch components
comprising the barrel and head 11 and 12, plunger 13, sleeve 14, a cover
17 can be inexpensively molded, preferably employing plastic material.
Although this is preferred from the standpoint of cost and ease of
construction, those skilled in the art will understand that other
materials, and other fabrication methods, could be employed as well. It is
essential, of course, that if any portions of the head 12 or cover 17 are
formed of a conducting material, insulation must be provided to prevent
electrical connection between the coined ends 21 and 23. As shown in the
drawings, the barrel 11 has an external thread which facilitates
mechanical mounting of the switch in a manner which is adequately set
forth in the referred-to-patent.
Referring again to FIG. 2, the strand actuator mechanism will now be
described in detail. Axially aligned apertures 60-63 extend completely
through end 13B of plunger 13, an end of sleeve 14, an end of contact 15
and guide stud 25, respectively. A strand of fish line type material 64
passes through aligned apertures 60-63 and includes a tie knot 65 formed
at an end adjacent to an outer surface of plunger end 13B. An opposite end
of strand 64 may include an attached member 66 which is easily grasped by
an operator. In an alternative embodiment, conventional pull chain
assembly, not shown, may extend from member 66 or member 66 may be
eliminated altogether, allowing the operator to directly grasp strand 64.
Thus "strand" refers herein to any elongated member of adequate tensile
strength whether of one or more strands and whether or not the so-called
strands are continuous, as in monofilament, or are joined discontinuous
elements, as in a pull chain or woven fiber cord.
In operation, when the switch is mechanically mounted in the desired
position and the conductors 20 and 22 are attached to an electrical device
which is controlled by the switch, the following operation can be
achieved. To begin this description we will assume that the sleeve 14 is
rotated to a position which will allow sleeve 14, plunger 13 and contact
15 to be urged to the retracted position under the force exerted by the
spring 16. In this condition, electrical connection is made between the
coined ends 21 and 23. To operate the switch, member 66 attached to strand
actuator 64 is pulled. This draws tie knot 65 against plunger 13, with
further pulling of member 66 causing plunger 13 to compress spring 16 and
projecting sleeve 14. This operation, at the same time, projects the
contact 15 so that the previously closed circuit is now opened. As the
manually exerted force is now removed, the plunger 13, sleeve 14 and
contact 15 are again urged to the retracted position by the spring 16.
However, as the sleeve 14 travels to the retracted position, the camming
action of the ratchet mechanism rotates the sleeve 14 so that the
latchdogs become trapped in the latching pockets against the action of the
spring 16. This maintains the flange 19 in the position of FIG. 4
associated with the "OFF" legend. This corresponds to the switch being
open. Subsequent pulling of strand actuator 64 and plunger 13 results in
similar operation, although rotary indexing of the sleeve 14 results in
the latchdogs being removed from the latch pockets and thus allows the
contact 15 to be retracted under the force exerted by the spring 16 to the
solid condition shown in FIG. 4, at which time the flange 19 bridges the
coined ends 21 and 23. Thus, successive manual operations of the plunger
13 enable the switch to change from the closed to the open condition. In
the switch field this is termed a push-push function.
In another embodiment of the invention, the switch function is of the
"momentary off" type. In this embodiment, the contact 15 has only a single
stable position, the "ON" condition. Projection of the plunger by pulling
strand 64 via member 66 results in projection of the flange 19 to remove
the bridging of coined ends 21 and 23, but only for so long as the plunger
13 remains projected. As soon as the projecting force of of tie knot 65 is
removed from the plunger 13, the flange 19 returns to the solid line
illustration in FIG. 4, again bridging the conductors 21 and 23. For this
type of operation, rotary indexing of the sleeve 14 is to be prevented, to
thus prevent the latch dogs from being trapped in the latch pockets
restraining the sleeve against the action of the spring 16. This can be
simply effected by, for instance limiting projected travel of contact 15
in cavity 26 of cover 17, by a washer or similar device. A suitable washer
26' is shown dotted in FIG. 1. Alternatively, the sleeve 14 can be omitted
and and plunger 13 increased in length with omission of camming teeth.
Other modifications that can be employed to prevent a ratcheting operation
will occur to those skilled in the art. Regardless of the manner in which
it is effected, when rotary indexing of sleeve 14 is prevented, the switch
will have only the single stable "ON" condition in which the flange 19
bridges the conductors 21 and 23. This condition will be maintained in the
absence of a force exerted on strand 64 for projecting the plunger 13. The
switch will be in the "OFF" or open condition only for so long, as the
force remains to maintain the plunger 13 in a projected condntion.
Still another variation of the switch enables the switch to perform the
"momentary on" function. To effect this, the switch is modified such that
the flange 19 does not contact the coined ends 21 and 23 as shown in FIG.
4, but rather can only contact them as shown in FIG. 5. In this
configuration, flange 19 has an "OFF" position in which the contact 15 is
held off the coined ends 21 and 23 through the force exerted by the coil
spring 16. Depression of the plunger can, however, displace the flange 19
to the dotted line position shown in FIG. 5 (the "ON" position) in which
case it bridges the coined ends 21 and 23 to establish an electrical
connection. Thus, the switch will only be "ON" so long as the plunger 13
is projected by some external force. For this configuration of the switch,
of course, the assembly must be varied slightly inasmuch as the flange 19
of the contact 15 is on the opposite side of the coined ends 21 and 23 as
compared with the assembly required to produce the switch configuration
shown in FIG. 4. Furthermore, in order to prevent rotary indexing which
is, of course, unnecessary, the sleeve 14 may be eliminated and plunger 13
modified as before mentioned.
It will thus be seen that with slight modifications, the switch of the
invention can alternatively perform a push-push, momentary off, or
momentary on function when actuated by a pulling strand 64, which greatly
increases the versatility of the switch and enlarges its field of
application. Furthermore, this disclosure is believed to demonstrate to
those skilled in the art the advantages to be gained by the switch in the
push-push and momentary off configurations in which positive electrical
contact is made between the flange 19 and the coined ends 21 and 23 by
reason of the bias exerted by the coil spring 16.
FIG. 6 is an isometric view of an assembled switch of the invention
illustrating that the conductors 20 and 22, external of the switch, have
spade connectors 29 mounted thereon. Many other types of electrical
connectors could be employed, whether external to the switch or not,
within the spirit and scope of the invention.
It should also be understood that the securing means for the strand
actuator may take a wide variety of forms. While the tie-knot securing
means of the herein-described preferred embodiment is part of the strand,
the securing means may be formed as part of the strand and/or as part of
the plunger, or may be an element separate from both the strand and
plunger which is adapted to secure them together or at least to prevent
them from becoming separated during actuation. Thus, the knot may be
replaced with a jam-cleat arrangement in the plunger, or a member of
substantial size compared to the strand diameter may be crimped onto the
strand. If the strand is secured within the plunger, or is secured to the
moveable contact, e.g. thimble, instead of the plunger, it may not be
necessary to provide an aperture in the plunger.
Based on this disclosure and the prior art, persons skilled in the art will
readily make many useful modifications of the preferred embodiments
described above. Therefore, the scope of the invention is to be defined by
the claims appended hereto and should not be limited to the said preferred
embodiments.
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