BACKGROUND OF THE INVENTION
1. Field of the Invention
[0001] The present invention relates to a switch device according to the preamble of claim
1. The device can be used for an electronic apparatus, used as a power-supply switch
having a detection switch. More particularly, if relates to the configuration of an
integrated-type switch device, in which a detection switch section and a power-supply
switch section are housed in the same case.
2. Description of the Related Art
[0002] Known configurations of conventional power-supply switch devices with detection switches
include an external-type switch device, which is formed in such a manner that an conventional
detection switch is connected and fixed to the front portion or the back portion of
a power-supply switch by using a coupling member, and an integrated-type switch device,
which is formed in such a manner that a switch section of an conventional detection
switch is incorporated in a case of the main unit of a power-supply switch.
[0003] The above-described external-type switch device is configured in such a manner that
the conventional detection switch is used in its current form, except that the shape
of an operation lever, which serves as the operation section of the detection switch,
is partly changed to allow a pressing operation to be performed on a sliding member,
which is connected to the operation section of the power-supply switch, and the detection
switch is coupled thereto by a coupling member so that, when the operation section
of the power-supply switch is pressed, the detection switch is also operated simultaneously.
[0004] In this case, the power-supply switch section and the detection switch section are
formed independently in such a manner that they are housed in individual cases, and
are disposed one behind the other in a direction parallel to the direction of the
pressing operation.
[0005] The integrated-type switch device is formed in such a manner that the operation lever
and the case are removed from the conventional detection switch, the switch section
is taken out, and only this switch section is integrated within the case of the power-supply
switch. By partly changing the shape of the case on the power-supply side and the
sliding member which serves as an operation section as necessary, switching of the
detection switch is made possible.
[0006] In this case, the power-supply switch section and the detection switch section are
integrated within the same case, and they can be operated without using a coupling
member. The power-supply switch section and the detection switch section are disposed
one behind the other in a direction parallel to the direction of the pressing operation.
[0007] However, in a conventional power-supply switch with a detection switch having a configuration
such as those described above, since, in the external-type switch device, the conventional
detection switch is coupled before or after the power-supply switch by a coupling
member, etc., there are problems with the strength of a mounting section for the detection
switch section, and a variation in the ON detection position due to dimensional variations
when it is provided externally. Furthermore, there is a problem in that the cost is
increased due to a decrease in the ease of assembly as a result of the increased number
of parts.
[0008] Furthermore, in both the external type and the integrated type, since the power-supply
switch and the detection switch are disposed one behind the other in a direction parallel
to the direction of the pressing operation of the operation section, the depth dimension
increases. This causes a problem in that an apparatus such as a washing machine, in
which a conventional-switch device is incorporated, becomes enlarged.
[0009] In accordance with the pre-characterizing part of claim 1,
US-A- 5,994,652 discloses a switch device, in which the first movable contact point and the second
movable contact point are each comprised of a small plate member coupled to a coiled
string. The switch device is formed symmetrically with regard to a plane parallel
to the operating direction of two separate operating sections.
[0010] Moreover,
EP-A- 0 591 796 discloses a switch device also having a configuration which is substantially symmetrical
with regard to an operating direction of each of a pair of operating members. This
switch device has a first and a second moveable contact point, wherein the second
moveable contact point comprises a twisted coil spring, which is only used as a pressure
element.
SUMMARY OF THE INVENTION
[0011] The present invention has been made in view of the above-described problems. The
object of the present invention is to provide a switch device whose size can be reduced
and whose ease of assembly can be improved.
[0012] To achieve the above-mentioned object, the present invention provides a switch device
comprising the features of claim 1.
[0013] The first movable contact point that is supported on the first contact-point support
section of the sliding member may be formed in the shape of a rectangular plate, one
side thereof being supported on the support wall side of the sliding member, and the
other side being supported in a vertically movable manner on a wall member formed
on a side opposing the support wall.
[0014] A pair of the first fixed terminals may be provided with a predetermined space in
between on the bottom wall on the first housing section side, and when the sliding
member is pressed, the other side of the first movable contact point is brought into
contact with the pair of the first fixed terminals.
[0015] The second movable contact point may comprise a twisted coil spring having a wound
section in which a line spring is wound in the form of a coil and having formed therein
a pair of arm sections which extend outward at predetermined open angles from this
wound section.
[0016] A pair of the second fixed terminals may be provided with a predetermined space in
between on the bottom wall on the second housing section side, and when the sliding
member is pressed, the pair of arm sections are brought into contact with the pair
of the second fixed terminals.
[0017] The first and second fixed terminals may have contact points with which the first
and second movable contact points can be brought into contact, and terminal parts
which extend toward one side from these contact points, these terminal parts may be
mounted on the bottom wall, and the tips of the terminal parts may be guided out externally
from the bottom wall.
[0018] Preferably, the dividing wall of the bottom wall has formed therein a guide section
for slidably supporting the sliding member along the dividing wall.
[0019] A first coil spring may be provided between the sliding member and the bottom wall,
and when the pressing of the sliding member is released, the sliding member may automatically
return to its initial state before the pressing due to the action of the first coil
spring.
[0020] Preferably, the sliding member has formed therein a sliding surface having a step
difference which is inclined in a direction parallel to the pressing direction, a
plate spring which can be brought into pressure contact with this sliding surface
is disposed on the bottom wall, and when the sliding member is pressed, as a result
of the plate spring being elastically deformed due to the step difference, the pressure
pressing force for the pressing operation may be varied.
[0021] The cover member and the bottom wall may be formed as separate elements, and the
cover member may be formed such that the lower portion of the housing section is opened,
the opened lower portion of the housing section is covered by the bottom wall, a clearance
portion between the bottom wall and the cover member is sealed by a sealing material,
and the lower portion of the housing section is hermetically sealed.
[0022] The sealing material may also be coated around the first and second fixed terminals
mounted on the bottom wall.
[0023] A dome-shaped rubber member may be disposed on the operation section of the sliding
member which protrudes outward from the cover member, and the upper portion of the
housing section may be hermetically sealed by this rubber member.
[0024] Preferred embodiments are defined by the dependent claims.
[0025] In a specific embodiment, the switch device is made waterproof. In the switch device
of the present invention, since the first and second switch sections are disposed
in parallel in a direction intersecting at right angles to the direction of the pressing
operation of the operation section, the depth dimension can be reduced, and thus a
small switch device can be provided.
[0026] The first movable contact point is formed in the shape of a rectangular plate, one
side thereof is supported on the support wall side of the sliding member, and the
other side is supported in a vertically movable manner on the wall member formed on
a side opposite to the support wall. Therefore, after the first movable contact point
is brought into contact with the first fixed terminal, the sliding member can slide,
and the stroke of the sliding member can be made to be an overstroke.
[0027] A pair of first fixed terminals is disposed with a predetermined spacing in between
on the bottom wall on the first housing section side, and when the sliding member
is pressed, the other side of the first movable contact point is brought into contact
with the first fixed terminal. As a result, the pair of first fixed terminals and
one first movable contact point can form a first switch section, and thus a switch
device which has a simple configuration and which has a small number of parts can
be provided.
[0028] The second movable contact point is formed of a twisted coil spring, which has a
wound section in which a line spring is wound in the form of a coil and which has
formed therein a pair of arm sections which extend outward at a predetermined open
angle from this wound section. Therefore, after the pair of arm sections is brought
into contact with the first fixed terminals, the sliding member can slide, and the
stroke of the sliding member can be made to be an overstroke.
[0029] A pair of second fixed terminals is disposed with a predetermined spacing in between
on the bottom wall in the second housing section, and when the sliding member is pressed,
a pair of arm sections is brought into contact with the pair of second fixed terminals.
Therefore, the pair of second fixed terminals and the second movable contact point
formed of one twisted coil spring can form a second switch section, and thus a switch
device which has a simple configuration and which has a small number of parts can
be provided.
[0030] The first and second fixed terminals have contact-point parts with which first and
second movable contact points can be brought into contact, and terminal parts which
extend toward one side from these contact-point parts. These terminal parts are mounted
on the bottom wall, and the tips of these terminal parts are guided out externally
from the bottom wall. Therefore, the terminal parts which are guided out externally
from the bottom wall can be mounted on a substrate, etc., on the device side by soldering,
etc., and thus a switch device which can easily be mounted on the device side can
be provided.
[0031] Since the dividing wall of the bottom wall has formed therein a guide section for
slidably supporting the sliding member along the dividing wall, the sliding member
can smoothly slide, and a switch device having ease of operation can be provided.
[0032] A first coil spring is disposed between the sliding member and the bottom wall, and
when the pressing operation of the sliding member is released, the sliding member
automatically returns its initial state before the pressing operation due to the action
of the first coil spring. Therefore, a switch device having greater ease of operation
can be provided.
[0033] In the sliding member, a sliding surface having an inclined step-difference section
in a direction parallel to the direction of the pressing operation is formed, a plate
spring which can be brought into contact with this sliding surface is disposed on
the bottom wall side, and when the sliding member is pressed, as a result of the plate
spring being elastically deformed due to the step-difference section, the pressure
pressing force for the pressing operation is varied. Therefore, it is possible to
feel tactile feeling as a result of a variation in the pressure pressing force, and
a switch device having ease of operation can be provided.
[0034] The cover member and the bottom wall are formed as separate elements, and the cover
member is formed such that the lower portion of the housing section is opened, the
opened lower portion of the housing section is covered by the bottom wall, the clearance
portion between the bottom wall and the cover member is sealed by a sealing material,
and the lower portion of the housing section is hermetically sealed. Therefore, it
is possible to prevent a liquid, such as water, intruding from the bottom wall side.
[0035] Since the sealing material is also coated around the first and second fixed terminals
mounted on the bottom wall, it is possible to further ensure the water-proof construction
on the bottom wall side.
[0036] A dome-shaped rubber member is disposed above the operation section of the sliding
member which protrudes externally from the cover member, and the upper portion of
the housing section is hermetically sealed by this rubber member. Therefore, it is
also possible to prevent a liquid such as water from intruding from above the cover
member, and thus a switch device having a reliable water-proof construction can be
provided.
[0037] A driving bar is disposed on the rubber member, and the driving bar is fixed to the
operation section of the sliding member via a press-fit hole formed in the rubber
member. Therefore, by pressing the driving bar, the sliding member can slide, and
a switch device having ease of operation can be provided.
BRIEF DESCRIPTION OF THE DRAWINGS
[0038]
Fig. 1 is a perspective view of a switch device according to an embodiment of the
present invention;
Fig. 2 is an exploded perspective view of the switch device according to the embodiment
of the present invention;
Fig. 3 is a top plan view of a sliding member according to the embodiment of the present
invention;
Fig. 4 is a front view of the sliding member according to the present invention;
Fig. 5 is a bottom view of the sliding member of Fig. 4;
Fig. 6 is a sectional view taken along the line VI-VI in Fig. 5;
Fig. 7 is a right side view of the sliding member of Fig. 4; and
Fig. 8 is a sectional view showing the essential portion of the switch device according
to the embodiment of the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENT
[0039] The preferred embodiment of the present invention will now be described below with
reference to Figs. 1 to 6. Fig. 1 is a perspective view of a switch device according
to an embodiment of the present invention. Fig. 2 is an exploded perspective view
of the switch device. Fig. 3 is a top plan view of a sliding member according to the
present invention. Fig. 4 is a front view of the sliding member according to the present
invention. Fig. 5 is a bottom view of the sliding member of Fig. 4. Fig. 6 is a sectional
view taken along the line VI-VI in Fig. 5. Fig. 7 is a right side view of the sliding
member of Fig. 4. Fig. 8 is a sectional view showing the essential portion of the
switch device of the present invention.
[0040] As shown in Fig. 2, the switch device of the present invention has a bottom wall
1 substantially in the shape of a rectangle disposed in the lowest portion thereof.
This bottom wall 1 is made of an insulating material, such as a resin material, and
can cover the opened lower portion of a housing section 14 inside a cover member 13
(to be described later).
[0041] In nearly the central portion of the bottom wall 1, a dividing wall 1a which divides
the housing section 14 inside the cover member 13 (to be described later) into two
portions is arranged in a standing condition at a predetermined height. Furthermore,
guide sections 1b, formed of a groove in the shape of a letter U, are formed so as
to oppose each other in the corresponding end portions before and after the dividing
wall 1a, so that these guide sections 1b allow a sliding member 6 (to be described
later) to be slidably guided.
[0042] At the left side of the figure, in the vicinity of the central portion of the dividing
wall 1a, a bar-shaped spring support section 1c, formed in an oval shape, is arranged
in a standing condition at a height lower than that of the dividing wall 1a. Furthermore,
in the central portion of the dividing wall 1a, a cut-out groove 1d having a predetermined
width dimension is formed.
[0043] Furthermore, the bottom wall 1 is formed such that a pair of first fixed terminals
2 and a pair of second fixed terminals 3 formed by bending a metal plate are press-fitted
and are integrated.
[0044] The first fixed terminal 2 has a contact-point part 2a which is exposed from the
top surface of the bottom wall 1, and a terminal part 2b which is bent substantially
in the shape of a letter L from this contact-point part 2a and which extends toward
the lower side in the figure. The second fixed terminal 3 has a contact-point part
3a which is exposed from the top surface of the bottom wall 1, and a terminal part
3b which is bent substantially in the shape of a letter L from this contact-point
part 3a and which extends toward the lower side in the figure. The terminal parts
2b and 3b are press-fitted to press-fit holes 1f formed in the bottom wall 1, and
the tips of the terminal parts 2b and 3b protrude externally from the rear surface
of the bottom wall 1.
[0045] Furthermore, each contact-point member 2c for ensuring the conduction with a first
movable contact point 10 (to be described later) formed of a conduction plate is fixed
to the contact-point part 2a of the first fixed terminal 2 by crimping, press-fitting,
etc.
[0046] A plate spring 4 and a first coil spring 5 can be placed in the bar-shaped spring
support section 1c of the bottom wall 1. As shown in Fig. 2, the plate spring 4 comprises
a base section 4b having formed in its central portion an oval-shaped support hole
4a, which can be connected to the spring support section 1c, and a pair of arm sections
4c such that both end portions of this base section 4b are bent upward in such a manner
as to oppose each other, and sliding sections 4d which protrude inward in the shape
of an arc in such a manner as to oppose each other are formed in the tips of the arm
sections 4c.
[0047] The spacing dimension of the opposing arm sections 4c is such that the dimension
on the sliding section 4d side is smaller than that on the base section 4b side.
[0048] When the oval-shaped support hole 4a is connected to the oval-shaped spring support
section 1c, the plate spring 4 can be placed by being positioned in place at a predetermined
position on the top surface of the bottom wall 1.
[0049] The first coil spring 5 formed of a compression coil spring can be placed in the
spring support section 1c which protrudes upward from the support hole 4a of the plate
spring 4 placed on the top surface of the bottom wall 1.
[0050] Furthermore, a sliding member 6, made of an insulation material such as a resin material,
is slidably guided along the dividing wall 1a in the vertical direction in the figure
by the bar-shaped guide sections 1b formed in both end portions of the dividing wall
1a.
[0051] The sliding member 6 will now be described with reference to Figs. 3 to 7. As shown
in the front view of Fig. 4, the sliding member 6 is formed such that a support wall
6a having a predetermined thickness is formed in nearly the central portion and that
a bar-shaped operation section 6b which protrudes upward from the top surface of the
support wall 6a is formed at a predetermined height. A press-fit hole 6c to which
a driving bar 16 (to be described later) can be press-fitted is formed at a predetermined
hole diameter and depth in the operation section 6b.
[0052] Furthermore, plate-shaped guide sections 6f are formed so as to protrude correspondingly
from one end surface 6d on the upper side and the other end surface 6e on the lower
side in the vertical direction, shown in Fig. 3, and these guide sections 6f can be
slidably guided along the guide sections 1b of the bottom wall 1.
[0053] At the left side of the support wall 6a shown in Fig. 4, a first contact-point support
section 7 that can support a first movable contact point 10 (to be described later)
is formed. This first contact-point support section 7 has formed therein a wall member
7a which extends in a roof form from the upper portion of the support wall 6a at the
left side in the figure, and its interior is hollow. Furthermore, the first contact-point
support section 7 has formed therein a pair of first and second support protrusions
7b and 7c that can support a fulcrum section 10b of the first movable contact point
10 (to be described later) on the corresponding end surfaces 6d and 6e of the support
wall 6a on which the guide section 6f is formed.
[0054] The first and second support protrusions 7b and 7c, as shown in Fig. 4, are formed
with a clearance of a predetermined spacing in between, and the fulcrum section 10b
of the first movable contact point 10 (to be described later) can be supported in
this clearance portion.
[0055] Furthermore, the first contact-point support section 7 has formed therein a hook-shaped
stopper section 7d on the lower side of the wall member 7a on a side opposing the
support wall 6a. This stopper section 7d is protrusively formed toward the inside,
which is in the direction of the support wall 6a, from the lower inner surface of
the wall member 7a.
[0056] On the ceiling surface of the wall member 7a which is a constituent of the first
contact-point support section 7, a spring support hole 7e that can support a second
coil spring 11 (to be described later) is formed nearly in the form of a rectangle
at a predetermined depth.
[0057] Furthermore, as shown in Fig. 4, on the right side of the support wall 6a, a second
contact-point support section 8 that can support the second coil spring 11 (to be
described later) is formed.
[0058] In the second contact-point support section 8, a spring support section 8a nearly
in the shape of a letter L is formed on the right side in the figure from the upper
portion of the support wall 6a, and a guide groove 8b having a predetermined width
dimension is formed between the spring support section 8a and the support wall 6a.
[0059] Furthermore, on the upper side of the guide groove 8b, an engagement section 8c that
can slide by being engaged with the cut-out groove 1d formed in the dividing wall
1a of the bottom wall 1 is formed.
[0060] Furthermore, on the lower side of the spring support section 8a, a bar-shaped contact-point
support section 8d that can support a wound section 11a of the second coil spring
11 (to be described later) formed of a twisted coil spring is protrusively formed.
Furthermore, as shown in Fig. 3, in the sliding member 6, a pair of spring latching
sections 8e and 8f whose protrusion dimensions from the spring support section 8a
differ from each other is formed above and below the contact-point support section
8d.
[0061] As shown in Fig. 4, the tip of each of the spring latching sections 8e and 8f is
formed in the shape of a hook, so that an arm section 11b of the second coil second
coil spring 11 (to be described later) formed of a twisted coil spring can be latched.
[0062] Furthermore, on the lower surface side of the sliding member 6 shown in the bottom
view of Fig. 5, in nearly the central portion of the support wall 6a, a spring support
hole 6g having a predetermined hole diameter dimension is formed. The depth of this
spring support hole 6g is formed up to near the ceiling surface of the wall member
7a of the first contact-point support section 7, as shown in Fig. 6.
[0063] Furthermore, plate spring housing sections 9 that can house the arm section 4c of
the plate spring 4 are formed at a predetermined depth above and below the spring
support hole 6g formed in the support wall 6a shown in Fig. 5.
[0064] As shown in Fig. 7, this plate spring housing section 9 has formed therein first
sliding surfaces 9a which oppose at a predetermined width dimension on the lower side
and second sliding surfaces 9b which oppose at a width dimension wider than the width
dimension on the first sliding surface 9a side, with step-difference sections 9c which
connect the first sliding surface 9a to the second sliding surface 9b being formed
in an inclined manner.
[0065] As shown in Fig. 7, when the arm section 4c of the plate spring 4, indicated by an
alternate long and two short dashes line, is housed in the plate spring housing section
9, each of the sliding sections 4d and 4d of the plate spring 4 is brought into pressure
contact with the first sliding surface 9a. In this state, when the sliding member
6 is lowered downward by being pressed, the sliding section 4d rides on the step-difference
section 9c, and the plate spring 4 is deformed elastically. At this time, the operation
force for pressing the sliding member 6 varies, and the operator is able to feel tactile
feeling due to the variation of this operation force.
[0066] Furthermore, the first movable contact point 10 nearly in the shape of a rectangular
flat plate can be supported on the first contact-point support section 7 of the sliding
member 6. This first movable contact point 10 is formed of a conductive member, such
as a metal plate. As shown in Fig. 2, the first movable contact point 10 has a base
section 10a nearly in the shape of a rectangular flat plate, and a pair of fulcrum
sections 10b in the shape of a tongue, which protrude toward one side from both end
portions along the longitudinal direction of the base section 10a is formed.
[0067] Each of the fulcrum sections 10b and 10b can be supported between the first support
protrusion 7b and the second support protrusion 7c of the sliding member 6.
[0068] In the first movable contact point 10, a spring receiving section 10c in the shape
of a circle having a predetermined depth is formed in nearly the central portion of
the base section 10a thereof. Furthermore, in the base section 10a in the vicinity
of the pair of fulcrum sections 10b, contact-point parts 10d in the shape of a circle
are formed on the lower side in the figure.
[0069] Furthermore, the other side 10e of the base section 10a on a side opposite to the
side where the fulcrum section 10b is formed can be supported on the stopper section
7d of the sliding member 6.
[0070] In the spring receiving section 10c of the first movable contact point 10, a second
coil spring 11 formed of a compression coil spring, shown in Fig. 2, is positioned.
The upper end portion of the second coil spring 11 is supported in the spring support
hole 7e formed in the ceiling surface of the wall member 7a of the sliding member
6, so that the first movable contact point 10 is elastically urged toward the lower
side.
[0071] In the first movable contact point 10 which is elastically urged by such a second
coil spring 11, the fulcrum section 10b is supported between the first support protrusion
7b and the second support protrusion 7c. The other side 10e of the base section 10a
on a side opposite to the fulcrum section 10b is supported on the first support protrusion
7b in the shape of a hook, and is held by the sliding member 6.
[0072] The first movable contact point 10 and the pair of first fixed terminals 2 form a
first switch section, which is a power-supply switch. When the sliding member 6 is
pressed and is lowered, the pair of contact-point parts 10d and 10d of the first movable
contact point 10 are brought into contact with the corresponding contact-point members
2c and 2c of the first fixed terminal 2.
[0073] As a result of the above, the pair of first fixed terminals 2 and 2 conduct via the
first movable contact point 10, causing the first switch section to be turned on.
[0074] Furthermore, on the second contact-point support section 8 of the sliding member
6, a second movable contact point 12 formed of a twisted coil spring is supported.
As shown in Fig. 2, the second movable contact point 12 has a wound section 12a in
which a line spring formed of a piano line or the like is wound a plurality of times,
and two arm sections 12b and 12b which extend outward in a straight line at a predetermined
open angle α from this wound section 12a are formed.
[0075] In the second movable contact point 12, the wound section 12a is supported on the
contact-point support section 8d of the second contact-point support section 8, and
one of the arm sections 12b is latched to one of the spring latching sections 8e,
and the other arm section 12b is latched to the other spring latching section 8f.
[0076] Then, the second movable contact point 12 and the pair of second fixed terminals
3 form a second switch section, which is a detection switch. When the second movable
contact point 12 is lowered by pressing the sliding member 6, the two arm sections
12b and 12b are brought into contact with the pair of second fixed terminals 3.
[0077] As a result, the pair of the second fixed terminals 3 and 3 conduct via the second
movable contact point 12, causing the second switch section to be turned on.
[0078] A cover member 13 for covering the upper portion of the bottom wall 1 is disposed
above the bottom wall 1. The periphery of this cover member 13 is surrounded by an
outer peripheral wall 13a, the upper portion thereof is covered by a ceiling section
13b, and a hollow housing section 14 capable of housing the sliding member 6, etc.,
is formed inside the cover member 13.
[0079] The lower portion of the hollow section 14 is opened, and the bottom wall 1 can be
fitted to this opened lower portion.
[0080] Furthermore, in the cover member 13, an arc-shaped groove section 13c for mounting
a rubber member 15 (to be described later) is formed in the central portion of the
ceiling section 13b of the upper portion, and a crimping section 13d in the shape
of a wall having a predetermined thickness is protrusively formed at a predetermined
height in the outer periphery of the groove section 13c.
[0081] At the inner side of the arc-shaped groove section 13c, a through hole 13e through
which the operation section 6b of the sliding member 6 can be inserted is formed at
a predetermined hole diameter.
[0082] Furthermore, in the groove section 13c of the ceiling section 13b, as shown in Fig.
2, a dome-shaped rubber member 15 whose interior is hollow is disposed. This rubber
member 15 is formed of a dome-shaped outer peripheral wall 15a, and a jaw section
15b having a predetermined thickness, formed in the outer peripheral portion of the
lower portion of the outer peripheral wall 15a. In the vertex portion of the dome-shaped
outer peripheral wall 15a, a press-fit hole 15c to which the driving bar 16 (to be
described later) can be press-fitted is formed in such a manner as to go through.
[0083] Such a rubber member 15 is integrated with the cover member 13 in such a manner that
the crimping section 13d is crimped so that, in a state in which the jaw section 15b
is positioned in the groove section 13c, the crimping section 13d is put down inward.
[0084] The driving bar 16 is formed of a disc-shaped operation section 16a, and a bar-shaped
press-fit section 19b which can be press-fitted to the press-fit hole 15c of the rubber
member 15 and the press-fit hole 6c of the sliding member 6, and the driving bar 16
being formed in the shape of a top.
[0085] For assembling the switch device of the present invention configured as described
above, first, the terminal parts 2b and 3b of the corresponding first and second fixed
terminals 2 and 3 are press-fitted to the bottom wall 1. Then, the plate spring 4
is placed by being connected to the spring support section 1c of the bottom wall 1,
and the first coil spring 5 is placed by being connected onto the upper portion of
the base section 4b of the plate spring 4.
[0086] Furthermore, the sliding member 6 supports the first movable contact point 10 on
the first contact-point support section 7, and both end portions of the second coil
spring 11 are placed in the spring receiving section 10c of the first movable contact
point 10 and the spring support hole 7e of the sliding member 6.
[0087] Then, in the first movable contact point 10, the other side 10e is supported on the
stopper section 7d with the fulcrum section 10b positioned between the first support
protrusions 7c and 7d being a fulcrum, and is placed in the sliding member 6.
[0088] Furthermore, the second movable contact point 12 formed of a twisted coil spring
is placed in the second contact-point support section 8 of the sliding member 6.
[0089] For such a sliding member 6 having placed therein the first movable contact point
10 and the second movable contact point 12, in a state in which the guide section
6f which protrudes from the two end surfaces 6d and 6e of the support wall 6a is fitted
to the guide section 1b of the bottom wall 1, the cover member 13 to which the rubber
member 15 is crimped is covered from above, and the bottom wall 1 is press-fitted
to the opened lower portion of the cover member 13, thereby causing the bottom wall
1 to be temporarily locked to the cover member 13.
[0090] Then, the operation section 6b of the sliding member 6 protrudes upward from the
through hole 13e of the cover member 13, and is positioned inside the dome-shaped
outer peripheral wall 15a of the rubber member 15.
[0091] Next, by press-fitting a press-fit section 16b of the driving bar 16 to the press-fit
hole 15c of the rubber member 15 and the press-fit hole 6c of the sliding member 6,
the upper portion of the housing section 14 inside the cover member 13 is hermetically
sealed.
[0092] For this reason, intrusion of water, etc., from the upper portion of the cover member
13 to the housing section 14 can be prevented.
[0093] Furthermore, as shown in Fig. 8, as a result of sealing using a sealing material
17 the clearance between the outer peripheral section of the bottom wall 1 and the
outer peripheral wall of the cover member 13, the clearance between the first fixed
terminal 2 and the press-fit hole 1f of the bottom wall 1, and the clearance between
the second fixed terminal 3 and the press-fit hole 1f of the bottom wall 1, the lower
portion of the housing section 14 inside the cover member 13 is hermetically sealed,
and thus intrusion of water, etc., from the bottom wall 1 side can be prevented.
[0094] In the switch device of the present invention assembled as described above, as shown
in Fig. 8, the housing section 14 inside the cover member 13 is divided into two portions
by the dividing wall 1a of the bottom wall 1, a first housing section 18 is formed
at the left side in the figure, and a second housing section 19 is formed at the right
side in the figure.
[0095] Then, a first switch section that supports the first movable contact point 10 is
formed in the first housing section 18, and a second switch section that supports
the second movable contact point 12 is formed in the second housing section 19.
[0096] The operation of the switch device of the present invention configured as described
above will now be described. As shown in Fig. 8, in a state in which the sliding member
6 is positioned in the upper portion, and the first and second switch sections are
turned off, when the sliding member 6 is lowered by pressing the driving bar 16 downward
by the operator, the sliding section 4d of the plate spring 4, positioned on the first
sliding surface 9a of the sliding member 6, slides on the inclined step-difference
section 9c of the plate spring housing section 9, and the pressure pressing force
which is applied to the driving bar 16 increases, this further causes the sliding
member 6 to be pressed with pressure downward, and the sliding section 4d is positioned
on the second sliding surface 9b. At this time, the operation force for pressing the
sliding member 6 is suddenly decreased, and the operator who is pressing the sliding
member 6 can feel tactile feeling.
[0097] At the same time as when this tactile feeling is felt, the contact-point parts 10d
of the first movable contact point 10 are brought into contact with the contact-point
members 2c and 2c of the first fixed terminal 2, and the pair of the first fixed terminals
2 and 2 conduct via the first movable contact point 10, causing the first switch section
to be turned on.
[0098] Furthermore, at the same time, the pair of arm sections 12b and 12b which extend
from the wound section 12a of the second movable contact point 12 are brought into
contact with the contact-point parts 3a and 3a of the second fixed terminal 3, and
the pair of the second fixed terminals 3 and 3 conduct via the second movable contact
point 12, causing the second switch section to be turned on.
[0099] At this time, when the voltage which is supplied to the first switch section, which
is a power-supply switch, is a high voltage, such as 100 V, and even if an arc is
generated at the switched-on time, since the section between the first housing section
18 and the second housing section 19 is covered by the dividing wall 1a, the generated
arc will not jump into the second housing section 19. For this reason, the second
switch section does not cause a contact-point failure.
[0100] In this state in which the first and second switch , sections are ON, when the pressing
of the driving bar 16 is released, the sliding member 6 is pushed upward by the urging
force of the first coil spring 5, and automatically returns to its initial state shown
in Fig. 8, causing the first and second switch sections to be turned off.
[0101] In such a switch device of the present invention, the first switch section is disposed
in the first housing section 18, and the second switch section is disposed in the
second housing section 19, the first housing section 18 and the second housing section
19 being divided by the dividing wall 1a.
[0102] That is, since the first and second switch sections are disposed in parallel in a
direction intersecting at right angles to the pressing direction of the operation
section 6b, the depth dimension can be decreased.
[0103] In addition, in the switch device of the present invention, since the first movable
contact point 10 and the second movable contact point 12 are supported on the sliding
member 6, the number of parts can be reduced.
1. A switch device comprising:
a cover member (13) for covering a housing section (14) of the interior thereof with
a bottom wall (1) disposed in the lower portion; and
a sliding member (6) by which an operation section (6b), housed inside said housing
section (14) and protruding outward from said cover member (13), can be pressed.
wherein said bottom wall (1) has a dividing wall (1a) for dividing said housing section
(14) into first and second housing sections,
said sliding member (6) has a support wall (6a) which can slide along said dividing
wall (1a) by pressing said operation section (6b); a first contact-point support section
(7) being, formed in said first housing section with the support wall (6a) being sandwiched
in between, a second contact-point support section (8) being formed in said second
housing section, a first movable contact point (10) being disposed in said first contact-point
support section(7), and a second movable contact point (12) being disposed in said
second contact-point support section (8),
said bottom wall (1) has a first fixed terminal (2) with which said first movable
contact point (10), which is disposed in said first housing section, can be brought
into contact, and a pair of second fixed terminals (3) with a predetermined space
therebetween is provided on the bottom wall (6a) in said second housing section, and
with which said second movable contact point (12), which is disposed in said second
housing section, can be brought into contact, and
said first movable contact point (10) and said first fixed terminal (2) form a first
switch section, said second movable contact point (12) and said second fixed terminal
(3) form a second switch section, and said first and second switch sections are disposed
in parallel in a direction intersecting at right angles to the direction in which
said operation section (6b) is pressed, wherein the first movable contact point (10)
that is supported on said first contact-point support section (7) of said sliding
member (6) is formed in the shape of a rectangular plate, one side thereof being supported
on said support wall side of said sliding member (6), and the other side being supported
in a vertically movable manner on a wall member formed on a side opposing said support
wall (6a),
characterized in that said second movable contact point (12) comprises a twisted coil spring having a wound
section (12a) in which a line spring is wound into a coil form and having formed therein
a pair of arm sections (12b) which extend outward at predetermined open angles from
this wound section (12a), and which are brought into can fact with said pair of the
second fixed terminals.
2. A switch device according to Claim 1, wherein a pair of said first fixed terminals
(2) is provided with a predetermined space therebetween on said bottom wall (1) on
said first housing section side, and when said sliding member (6) is pressed, said
other side of said first movable contact point (10) is brought into contact with said
pair of the first fixed terminals (2).
3. A switch device according to any of Claims 1 or 2, wherein said first and second fixed
terminals (2, 3) have contact points (2c) with which said first and second movable
contact points (10, 12) can be brought into contact, and terminal parts which extend
toward one side from these contact points, these terminal parts (2b, 3b) are mounted
on said bottom wall (1), and the tips of said terminal parts (2b, 3b) are guided out
externally from said bottom wall (1).
4. A switch device according to any of Claims 1 to 3 wherein said dividing wall (1a)
of said bottom wall (1) has formed therein a guide section for slidably supporting
said sliding member along said dividing wall (1a).
5. A switch device according to any of Claims 1 to 4, wherein a first coil (5) spring
is provided between said sliding member (6) and said bottom wall (1), and when said
pressing of said sliding member (6) is released, said sliding member (6) automatically
returns to its initial state before said pressing due to the action of said first
coil spring.
6. A switch device according to any of Claims 1 to 5, wherein said sliding member (6)
has formed therein a sliding surface (9a, 9b) having a step difference (9c) which
is inclined in a direction parallel to said pressing direction, a plate spring (4)
which can be brought into pressure contact with this sliding surface (9a, 9b) is disposed
on said bottom wall (1), and when said sliding member (6) is pressed, since said plate
spring (4) is elastically deformed due to said step difference (9c), the pressure
pressing force for said pressing operation is varied.
7. A switch device according to any of Claims 1 to 6. wherein said cover member (13)
and said bottom wall (1) are formed as separate elements, and said cover member (13)
is formed such that the lower portion of said housing section is opened, the lower
portion of said opened housing section is covered by said bottom wall (1), a clearance
portion between said bottom wall (1) and said cover member (13) is sealed by a sealing
material (17), and the lower portion of said housing section (14) is hermetically
sealed.
8. A switch device according to Claim 7, wherein said sealing material is also coated
around said first and second fixed terminals (2,3) mounted on said bottom wall (1).
9. A switch device according to any of Claims 1 to 8,
wherein a dome-shapped rubber member (15) is disposed on said operation section (6b)
of said sliding member (6) which protrudes outward from said cover member (13), and
the upper portion of said housing section (14) is hermetically sealed by this rubber
member.
10. A switch device according to Claim 9, wherein a driving bar (16) is disposed on said
rubber member (15), and this driving bar (16) is fixed to said operation section (6b)
of said sliding member (6) via a press-fit hole formed in said rubber member (15).
1. Schaltervorrichtung, aufweisend:
ein Abdeckelement (13) zum Abdecken eines Gehäusebereichs (14) in seinem Inneren,
wobei eine Bodenwand (1) in einem unteren Bereich angeordnet ist; und
ein Gleitelement (6), durch das ein Betätigungsbereich (6b), der im Inneren des Gehäusebereichs
(14) untergebracht ist und von dem Abdeckelement (13) nach außen heraus ragt, mit
Druck beaufschlagt werden kann,
wobei die Bodenwand (1) eine Trennwand (1a) zum Trennen des Gehäusebereichs (14) in
einen ersten und einen zweiten Gehäusebereich aufweist,
wobei das Gleitelement (6) eine Stützwand (6a) aufweist, die durch Druckbeaufschlagung
des Betätigungsbereichs (6b) entlang der Trennwand (1a) verschiebbar ist;
wobei ein erster Kontaktglied-Abstützbereich (7) in dem ersten Gehäusebereich unter
sandwichartiger Zwischenanordnung der Stützwand (6a) dazwischen ausgebildet ist, ein
zweiter Kontaktglied-Abstützbereich (8) in dem zweiten Gehäusebereich ausgebildet
ist, ein erstes bewegliches Kontaktglied (10) in dem ersten Kontaktglied-Abstützbereich
(7) angeordnet ist und ein zweites bewegliches Kontaktglied (12) in dem zweiten Kontaktglied-Abstützbereich
(8) angeordnet ist;
wobei die Bodenwand (1) einen ersten feststehenden Anschluss (2) aufweist, mit dem
das in dem ersten Gehäusebereich angeordnete, erste bewegliche Kontaktglied (10) in
Kontakt gebracht werden kann, und ein Paar zweiter feststehender Anschlüsse (3) mit
einer vorbestimmten Beabstandung dazwischen auf der Bodenwand (6a) in dem zweiten
Gehäusebereich vorgesehen ist, mit denen das in dem zweiten Gehäusebereich angeordnete,
zweite bewegliche Kontaktglied (12) in Kontakt gebracht werden kann, und
wobei das erste bewegliche Kontaktglied (10) und der erste feststehende Anschluss
(2) eine erste Schaltereinheit bilden, das zweite bewegliche Kontaktglied (12) und
die zweiten feststehenden Anschlüsse (3) eine zweite Schaltereinheit bilden und wobei
die erste und die zweite Schaltereinheit parallel zueinander in einer Richtung angeordnet
sind, die die Richtung, in der der Betätigungsbereich (6b) mit Druck beaufschlagt
wird, in einem rechten Winkel schneidet,
wobei das erste bewegliche Kontaktglied (10), das an dem ersten Kontaktglied-Abstützbereich
(7) des Gleitelements (6) abgestützt ist, in Form einer rechteckigen Platte ausgebildet
ist, von der die eine Seite an der Stützwandseite des Gleitelements (6) abgestützt
ist und die andere Seite in vertikal beweglicher Weise an einem Wandelement abgestützt
ist, das auf einer der Stützwand (6a) gegenüberliegenden Seite ausgebildet ist,
dadurch gekennzeichnet, dass das zweite bewegliche Kontaktglied (12) eine verdrehte Schraubenfeder aufweist, die
einen Windungsbereich (12a) besitzt, in dem geradliniges Federmaterial wendelförmig
gewickelt ist, und an der ein Paar Armbereiche (12b) ausgebildet ist, die sich von
diesem Windungsbereich (12a) in vorbestimmten Öffnungswinkeln nach außen erstrecken
und die mit dem Paar der zweiten feststehenden Anschlüsse in Kontakt gebracht sind.
2. Schaltervorrichtung nach Anspruch 1,
wobei ein Paar der ersten feststehenden Anschlüsse (2) mit einer vorbestimmten Beabstandung
voneinander auf der Bodenwand (1) auf der Seite des ersten Gehäusebereichs vorgesehen
ist, und wobei bei Druckbeaufschlagung des Gleitelements (6) die genannte andere Seite
des ersten beweglichen Kontaktglieds (10) mit dem Paar der ersten feststehenden Anschlüsse
(2) in Kontakt gebracht wird.
3. Schaltervorrichtung nach Anspruch 1 oder 2,
wobei der erste und der zweite feststehende Anschluss (2, 3) Kontaktgliedbereiche
(2c) aufweisen, mit denen das erste und das zweite bewegliche Kontaktglied (10, 12)
in Kontakt gebracht werden können, sowie sich von diesen Kontaktgliedern in Richtung
auf eine Seite erstreckende Anschlussbereiche aufweisen, wobei diese Anschlussbereiche
(2b, 3b) an der Bodenwand (1) angebracht sind und die freien Enden der Anschlussbereiche
(2b, 3b) aus der Bodenwand (1) heraus nach außen geführt sind.
4. Schaltervorrichtung nach einem der Ansprüche 1 bis 3,
wobei in der Trennwand (1a) der Bodenwand (1) ein Führungsbereich ausgebildet ist,
um das Gleitelement entlang der Trennwand (1a) in verschiebbarer Weise abzustützen.
5. Schaltervorrichtung nach einem der Ansprüche 1 bis 4,
wobei eine erste Schraubenfeder (5) zwischen dem Gleitelement (6) und der Bodenwand
(1) vorgesehen ist, wobei bei Aufheben der Druckbeaufschlagung des Gleitelements (6)
das Gleitelement (6) aufgrund der Wirkung der ersten Schraubenfeder automatisch in
seinen Ausgangszustand vor der Druckbeaufschlagung zurückkehrt.
6. Schaltervorrichtung nach einem der Ansprüche 1 bis 5,
wobei an dem Gleitelement (6) eine Gleitfläche (9a, 9b) mit einem Stufenübergangsbereich
(9c) ausgebildet ist, der in einer zu der Druckbeaufschlagungsrichtung parallelen
Richtung geneigt ist, wobei eine mit dieser Gleitfläche (9a, 9b) in Druckkontakt bringbare
Plattenfeder (4) auf der Bodenwand (1) angeordnet ist, und wobei bei Druckbeaufschlagung
des Gleitelements (6) die Druckbeaufschlagungskraft für die Druckbeaufschlagungsrichtung
aufgrund der elastischen Verformung der Plattenfeder (4) durch den Stufenübergangsbereich
(9c) variiert wird.
7. Schaltervorrichtung nach einem der Ansprüche 1 bis 6,
wobei das Abdeckelement (13) und die Bodenwand (1) als separate Elemente ausgebildet
sind und das Abdeckelement (13) derart ausgebildet ist, dass der untere Bereich des
Gehäusebereichs offen ist, wobei der untere Bereich des offenen Gehäusebereichs von
der Bodenwand (1) bedeckt ist, wobei ein Freiraumbereich zwischen der Bodenwand (1)
und dem Abdeckelement (13) durch ein Dichtungsmaterial (17) abgedichtet ist und der
untere Bereich des Gehäusebereichs (13) hermetisch abgeschlossen ist.
8. Schaltervorrichtung nach Anspruch 7,
wobei das Dichtungsmaterial auch um die an der Bodenwand (1) angebrachten ersten und
zweiten feststehenden Anschlüsse (2, 3) herum aufgebracht ist.
9. Schaltervorrichtung nach einem der Ansprüche 1 bis 8,
wobei ein kuppelförmiges Gummielement (15) auf dem Betätigungsbereich (6b) des Gleitelements
(6) angeordnet ist, der von dem Abdeckelement (13) nach außen ragt, und wobei der
obere Bereich des Gehäusebereichs (14) durch dieses Gummielement hermetisch abgedichtet
ist.
10. Schaltervorrichtung nach Anspruch 9,
wobei eine Treibstange (16) an dem Gummielement (15) angeordnet ist und diese Treibstange
(16) über eine in dem Gummielement (15) ausgebildete Presspassungsöffnung an dem Betätigungsbereich
(6b) des Gleitelements (6) angebracht ist.
1. Dispositif commutateur comprenant :
un élément de recouvrement (13) pour recouvrir une section de boîtier (14) de l'intérieur
de celui-ci, une paroi inférieure (1) étant disposée dans la partie inférieure ; et
un élément coulissant (6), au moyen duquel peut être appuyée une section fonctionnelle
(6b), logée à l'intérieur de ladite section de boîtier (14), et faisant saillie vers
l'extérieur par rapport audit élément de recouvrement (13),
dans lequel ladite paroi inférieure (1) comporte une paroi de séparation (1a) pour
séparer ladite section de boîtier (14) en une première et une seconde section de boîtier,
ledit élément coulissant (6) comporte une paroi support (6a) pouvant coulisser le
long de ladite paroi de séparation (1a) par appui de ladite section fonctionnelle
(6b) ; une première section support de point de contact (7) étant formée dans ladite
première section de boîtier, la paroi support (6a) étant intercalées entre ceux-ci,
une seconde section support de point de contact (8) étant formée dans ladite seconde
section de boîtier, un premier point de contact mobile (10) étant disposé dans ladite
première section support de point de contact (7), et un second point de contact mobile
(12) étant disposé dans ladite seconde section support de point de contact (8),
ladite paroi inférieure (1) comporte une première borne fixe (2) avec laquelle peut
être amené en contact ledit premier point de contact mobile (10) qui est disposé dans
ladite première section de boîtier, et une paire de secondes bornes fixes (3) avec
un espace prédéterminé entre elles est disposée sur la paroi inférieure (6a) dans
ladite seconde section de boîtier, et avec laquelle peut être amené en contact ledit
second point de contact mobile qui est disposé dans ladite seconde section de boîtier,
et
ledit premier point de contact mobile (10) et ladite première borne fixe (2) constituent
une première section de commutateur, ledit second point de contact mobile (12) et
ladite seconde borne fixe (3) constituent une seconde section de commutateur, et lesdites
première et seconde sections de commutateur sont disposées en parallèle dans une direction
constituant une intersection à angle droit par rapport à la direction dans laquelle
est appuyée ladite section fonctionnelle (6b), dans lequel
le premier point de contact mobile (10) qui est supporté sur ladite première section
support de point de contact (7) dudit élément coulissant (6) est réalisé sous la forme
d'une plaque rectangulaire, dont un côté est supporté sur ladite paroi latérale support
dudit élément coulissant (6), et l'autre côté étant supporté d'une manière verticalement
mobile sur un élément de paroi formé sur un côté opposé à ladite paroi support (6a),
caractérisé en ce que ledit second point de contact mobile (12) comprend un ressort hélicoïdal torsadé
comportant une section d'enroulement (12a) dans laquelle un ressort linéaire est enroulé
en une forme de bobine, et une paire de sections de bras (12b) étant formée à l'intérieur,
s'étendant vers l'extérieur selon des angles d'ouverture prédéterminés par rapport
à cette section d'enroulement (12a) et qui sont amenées en contact avec ladite paire
de secondes bornes fixes.
2. Dispositif commutateur selon la revendication 1, dans lequel une paires desdites premières
bornes fixes (2) est munie d'un espace prédéterminé entre elles sur ladite paroi inférieure
(1) sur ledit premier côté de section de boîtier, et lorsque ledit élément coulissant
(6) est appuyé, ledit autre côté dudit premier point de contact mobile (10) est amené
en contact avec ladite paire des premières bornes fixes (2).
3. Dispositif commutateur selon l'une quelconque des revendications 1 ou 2, dans lequel
lesdites première et seconde bornes fixes (2, 3) comportent des points de contact
(2c) avec lesquels lesdits premier et second points de contact mobiles (10, 12) peuvent
être amenées en contact, et des parties de bornes se prolongeant vers un côté par
rapport à ces points de contact, ces parties de bornes (2b, 3b) sont montées sur ladite
paroi inférieure (1), et les pointes desdites parties de bornes (2b, 3b) sont guidées
vers l'extérieur de manière externe par rapport à ladite paroi inférieure (1).
4. Dispositif commutateur selon l'une quelconque des revendications 1 à 3, dans lequel
à l'intérieur de ladite paroi de séparation (1a) de ladite paroi inférieure (1) est
formée une section de guidage pour supporter de manière coulissante ledit élément
coulissant le long de ladite paroi de séparation (1a).
5. Dispositif commutateur selon l'une quelconque des revendications 1 à 4, dans lequel
un premier ressort hélicoïdal (5) est disposé entre ledit élément coulissant (6) et
ladite paroi inférieure (1), et dans lequel ledit appui dudit élément coulissant (6)
est relâché, ledit élément coulissant (6) revenant automatiquement dans son état initial
avant ledit appui grâce à l'action dudit premier ressort hélicoïdal.
6. Dispositif commutateur selon l'une quelconque des revendications 1 à 5, dans lequel
ledit élément coulissant (6) comporte une surface de glissement (9a, 9b) formée à
l'intérieur, ayant une différence d'échelon (9c) inclinée dans une direction parallèle
à ladite direction d'appui, un ressort plat (4) pouvant être amené en contact par
pression avec cette surface de glissement (9a, 9b) et disposé sur ladite paroi inférieure
(1) et lorsque ledit élément coulissant (6) est appuyé, puisque ledit ressort plat
(4) est déformé de manière élastique en raison de ladite différence d'échelon (9c),
la force d'appui de pression pour ladite opération d'appui varie.
7. Dispositif commutateur selon l'une quelconque des revendications 1 à 6, dans lequel
ledit élément de recouvrement (13) et ladite paroi inférieure (1) sont formés comme
des éléments séparés, et ledit élément de recouvrement (13) est formé de telle sorte
que la partie inférieure de ladite section de boîtier soit ouverte, la partie inférieure
de ladite section de boîtier ouverte est recouverte par ladite paroi inférieure (1)
une partie de jeu entre ladite paroi inférieure (1) et ledit élément de recouvrement
(13) est hermétiquement fermée par un matériau d'obturation (17) et la partie inférieure
de ladite section de boîtier (14) est hermétiquement fermée.
8. Dispositif de commutateur selon la revendication 7, dans lequel ledit matériau d'obturation
est également déposé autour desdites première et seconde bornes fixes (2, 3) montées
sur ladite paroi inférieure (1).
9. Dispositif commutateur selon l'une quelconque des revendications 1 à 8, dans lequel
un élément caoutchouté en forme de dôme (15) est disposé sur ladite section fonctionnelle
(6b) dudit élément coulissant (6) faisant saillie vers l'extérieur depuis ledit élément
de recouvrement (13) et la partie supérieure de ladite section de boîtier (14) est
hermétiquement fermée par cet élément caoutchouté.
10. Dispositif commutateur selon la revendication 9, dans lequel une barre de commande
(16) est disposée sur ledit élément caoutchouté (15) et cette barre de commande (16)
est fixée sur ladite section fonctionnelle (6b) dudit élément coulissant (6) par l'intermédiaire
d'un trou d'ajustement par pression formé dans ledit élément caoutchouté (15).