ELECTRIC SWITCH

专利摘要:
An electrical switch comprising a pedestal and a driver (126) pivotally mounted in the pedestal (110) between two stable positions for contacting or disengaging a movable contact element with a fixed contact element. A compressible member (150) is adapted to be inactive with respect to the driver (126), to allow the free trainer to take either of the two stable positions, and to be received between a bearing surface of the base and the driver (126) and constrained against the driver (126), to force the trainer (126) to take only one of two stable positions. A retaining element (117, 119) integral with the base and adapted to maintain the compressible element (150) in its inactive state with respect to the driver (126) is reversibly movable between a position retaining element where it keeps the compressible element (150) in its inactive state with respect to the driver (126) and a spaced position where it leaves free the extension of the compressible element (150) to the coach (126).
公开号:FR3060197A1
申请号:FR1662260
申请日:2016-12-09
公开日:2018-06-15
发明作者:Jean-Marc Thinet
申请人:Legrand SA；
IPC主号:

专利说明:

Holder (s): LEGRAND FRANCE Public limited company, LEGRAND SNC General partnership.
Extension request (s)
Agent (s): JACOBACCI CORALIS HARLE Simplified joint-stock company.
FR 3 060 197 - A1
ELECTRIC SWITCH.
The invention relates to an electrical switch comprising a base and a driver (126) pivotally mounted in the base (110) between two stable positions for bringing a movable contact element into contact or out of contact with a fixed contact element.
A compressible element (150) is adapted to be inactive vis-à-vis the coach (126), to leave the coach free to take one or the other of the two stable positions, and to be received between a support surface of the base and the driver (126) and forced against the driver (126), to force the driver (126) to take only one of the two stable positions.
A retaining element (117, 119) made integrally with the base and adapted to maintain the compressible element (150) in its inactive state with respect to the driver (126) is reversibly movable between a position retaining where it maintains the compressible element (150) in its inactive state vis-à-vis the driver (126) and an open position where it leaves free the extension of the compressible element (150) up the coach (126).
Technical field to which the invention relates
The present invention relates to an electrical switch.
It relates more particularly to an electric switch comprising a base, a driver mounted tilting in the base between two stable positions to bring into contact or out of contact a movable contact element with a fixed contact element, a compressible element adapted to be inactive vis- opposite the trainer, to leave the trainer free to take one or the other of the two stable positions, and to be received between a support surface of the base and the trainer and constrained against the trainer , to force the trainer to take only one of the two stable positions, and a retaining element integrally with the base and adapted to maintain the compressible element in its inactive state vis-à-vis the trainer.
Technological background
Such an electrical switch is described for example in document DE 297 22 278.
In this document, the retaining element is breakable in order to be able to release the compressible element in its active state between the support surface of the base and the driver, which makes it possible to obtain a push button operation.
However, once the retaining element has been removed, it is no longer possible to return the compressible element to its inactive state in order to return to operation at two stable positions (sometimes called va-ef-v / enf).
In order to obtain a reversible operation, the document DE 297 22 278 proposes to use as a variant a retaining element removable relative to the base, which however implies the use of an additional part and also entails a risk of loss. of the removable element.
Object of the invention
In this context, the present invention provides an electrical switch as defined in the introduction, characterized in that the retaining element is reversibly movable between a retaining position where it keeps the compressible element in its inactive state vis-à-vis -vis the trainer and an open position where it leaves free the extension of the compressible element to the trainer.
Thus, by moving the retaining element between its retaining position and its separated position, the user can choose, reversibly, to put the compressible element in its active state (resting between the base and the trainer) or in its inactive state, and therefore configure the electrical switch in push button mode or in back-and-forth mode.
The retaining element also came integrally with the base, which simplifies the production of the electrical switch and prevents the loss of this element.
Other non-limiting and advantageous characteristics of the electrical switch according to the invention are as follows:
- the compressible element comprises a spring;
- the compressible element comprises a cap;
- The spring is mounted compressed between the base and the head of the cap (for example between the bottom of a spring receiving well and the head of the cap);
- The base includes a peripheral border forming an apparatus support, such as a peripheral border provided with through openings to allow the passage of fixing screws for the electrical switch in a housing;
- The retaining element comprises an arm provided with a lug adapted to maintain the compressible element in its inactive state;
- The base comprises a peripheral wall, for example a peripheral wall extending forward from a body of the base or a peripheral wall extending forward from a connecting part between the body of the base and the peripheral border;
the arm extends to the right of a window formed in the peripheral wall;
- the arm extends from a first edge of the window;
- a free end of the arm bears against a second edge of the window opposite the first edge of the window when the retaining element is in the separated position;
the first edge is a rear edge of the window so that the free end of the arm is accessible at a front region of the base (for example at a front peripheral edge of the peripheral wall and, here, at the front of the peripheral border);
- the first edge is a front edge of the window so that the free end of the arm is accessible from the rear of the base (that is to say here behind the peripheral border).
Detailed description of exemplary embodiments
The description which follows with reference to the accompanying drawings, given by way of nonlimiting examples, will make it clear what the invention consists of and how it can be carried out.
In the accompanying drawings:
- Figure 1 is an exploded perspective view of an electric switch according to a first example of implementation of the invention;
- Figure 2 is a cutaway view of the electrical switch of Figure 1;
- Figure 3 shows the detail A shown in Figure 2;
- Figure 4 is a sectional view of the electrical switch of Figure 1 in a first configuration;
- Figure 5 is a perspective view of the electric switch of Figure 1 during its passage from the first configuration to a second configuration;
- Figure 6 is a sectional view of the electrical switch of Figure 1 in a second configuration;
- Figure 7 is a perspective view of the electric switch of Figure 1 when it returns to the first configuration;
- Figure 8 is a sectional view of an electrical switch according to a second embodiment of the invention;
- Figure 9 shows the detail B indicated in Figure 8;
- Figure 10 is a sectional view of the electrical switch of Figure 8 in a first configuration;
- Figure 11 is a sectional view of the electrical switch of Figure 8 in a second configuration;
- Figure 12 is a sectional view of the electric switch of Figure 8 at a first stage of its return to the first configuration;
- Figure 13 is a sectional view of the electric switch of Figure 8 at a second stage of its return to the first configuration.
FIGS. 1 to 13 show two possible embodiments of an electrical switch 100; 200 according to the invention.
This electrical switch 100; 200 is intended to be housed in a box (not shown) intended to be attached to or in a wall, according to a surface mounting or by embedding of this box on or in the wall.
The electric switch 100; 200 is then connected to the electrical network for its supply.
In the description, the terms "front" and "rear" will be used with respect to the direction of the user's gaze towards the wall on which this electrical switch 100 is attached; 200. Thus, when the switch is installed in a room, the front will designate the side facing the inside of the room and the rear will designate the side facing away from it, towards the outside of the room.
The electric switch 100; 200 includes a switching mechanism 120; 220 housed in a base 110; 210 insulation.
The base 110; 210 is carried by an apparatus support which allows the mounting of the electrical apparatus (here an electrical switch) in the above-mentioned housing (meanwhile attached to or in the wall).
In certain embodiments, the apparatus support is a separate part from the base. The apparatus support and the base in this case comprise reciprocal assembly means.
In the example described here, the apparatus support is produced in the form of a peripheral edge 116; 216 integral with the base 110; 210 and which extends over the entire periphery of the base 110; 210.
The base 110; 210 has a body 112; 212 and, over the entire periphery of the body 112; 212, a (flat) connecting part 113; 213 between the body 112; 212 and the peripheral border 116; 216 forming an apparatus support.
The base 110; 210 also includes a peripheral wall 114; 214 (here closed), perpendicular to the connecting part 113; 213 and extending in particular forward from the connecting portion 113; 213.
The body 112; 212 is open at the front (in the space delimited by the peripheral wall 114; 214) and defines housings adapted to receive elements (in particular electrical connection terminals 130, 132, 134 visible in FIG. 1) of the mechanism switching 120; 220.
The peripheral border 116; 216 has a plurality of through openings 118; 218, here in the form of a keyhole, each intended to receive a mounting screw for the electrical switch 100; 200 in a box for fixing on or in a wall, as already mentioned.
The switching mechanism 120; 220 received in the base 110; 210 includes in particular a cover 122; 222, a brush 124, a coach 126; 226 and elastic tilting means 129.
The cover 122; 222 is an insulating part which retains conductive electrical parts housed in the base 110; 210, in particular the electrical connection terminals 130, 132, 134 to be connected to the local electrical network.
These electrical connection terminals 130, 132, 134 are for example automatic connection terminals, so that each of them can be operated by a disconnection lever which passes through an opening made in the wall of the base 110; 210 to act on a leaf spring of the corresponding terminal adapted to press the stripped end of an electrical conductor against the cage of the connection terminal. Each disconnection lever comprises a control lever 125; 225, carried by the cover 122; 222 and accessible to the user outside the base 110; 210.
As can be seen in FIG. 1, the cover 122 comprises for example elastic latching tabs 123 intended to cooperate with recesses 1100 formed in the body 112 of the base 110 for its snap-on mounting in the base 110.
The brush 124 mentioned above is suitable for tilting about a tilting axis between two extreme positions, to bring into contact or out of contact a movable contact element, for example a movable contact grain carried by the brush 124, with at at least one fixed contact element, for example a fixed contact grain 131 carried by a contact blade electrically connected to one of the electrical connection terminals 130.
Coach 126; 226 is pivotally mounted on the base 110; 210, for example by means of two pawns formed on the coach 126; 226 and respectively engaged in two corresponding bearings formed in the base 110; 210 so as to define a pivot axis for the coach 126; 226.
Coach 126; 226 is an insulating part, made for example of plastic by molding.
Coach 126; 226 extends (in the space delimited by the peripheral wall 114; 214) on either side of its pivot axis and is extended at one of its ends by a finger 127; 227 whose function is presented below.
A tubular element 128; 228 in solidarity with coach 126; 226 (here taken from material with coach 126; 226) extends backwards from coach 126; 226, at the pivot axis and through an opening provided for this purpose in the cover 122; 222.
As clearly visible in Figures 4, 6 and 10 to 13, the cover 122; 222 is moreover mounted in the space formed in the base 110; 210 and delimited by the peripheral wall 114; 214, between the body 112; 212 of base 110; 210 and coach 126; 226.
The elastic tilting means 129 already mentioned (here a spring mounted in the tubular element 128) are able, after crossing a hard point, to urge the brush 124 towards one or other of its positions extremes depending on the position of the coach 126; 226.
Thus, by operating a key 140 (shown only in FIG. 1) secured to the coach 126; 226 (generally mounted on the driver 126; 226 by snap-fastening), the user controls the tilting of the elastic tilting means 129, and therefore of the brush 124, so as to bring the movable contact element into contact or out of contact with the fixed contact element 131.
The body 112; 212 of base 110; 210 forms (in a peripheral region adjacent to the peripheral wall 114; 214) a well 115; 215 for receiving a compressible element 150; 250.
The compressible element 150; 250 here comprises a spring 152; 252 and a cap 154; 254 slidably mounted relative to well 115; 215 along the compression axis of the spring 152; 252.
The cap 154; 254 (here cylindrical in shape) is hollow so as to accommodate the spring 152; 252 so that the spring 152; 252 is received (in compression) between the bottom of well 115; 225 and a head 155; 255 of the cap 154; 254.
The cap 154; 254 also has a projection 156; 256 (located at least in a region directed towards the peripheral wall 114; 214) used to retain the compressible element 150; 250 in the compressed position, inactive with respect to the coach 126; 226 as explained below.
In the embodiment of Figures 1 to 7, the cap 154 is received in the receiving well 115 (the receiving well 115 having a shape complementary to that of the cap 154, here a cylindrical shape); the protrusion 156 is also formed in the extension of the head 155, the front face of the protrusion 156 being moreover here located in the plane of the front face of the head 155.
In the embodiment of FIGS. 8 to 13, the cap 254 is received in an annular recess 257 partially surrounding at least the well 215. The protrusion 256 is in turn formed by a flange extending over at least part of the circumference of the cylindrical cap 254, here in a region close to the head 255 (along the compression axis of the spring 252).
The peripheral wall 114; 214 of base 110; 210 has a window 111; 211 to the right of which an arm extends 117; 217 integrally with the base 110; 210 and linked to the base 110; 210 only at an edge of window 111; 211.
As clearly visible in Figures 3 and 9, the arm 117; 217 has a lug 119; 219 facing the compressible element 150; 250 and adapted to cooperate with the outgrowth 156; 256 of the cap 154; 254 (in a particular position of the arm 117; 217 as explained below) so as to retain the compressible element 150; 250 in its inactive compressed position relative to the coach 126; 226: arm 117; 217 with lug 119; 219 thus forms a retaining element for the compressible element 150; 250 in its inactive position vis-à-vis the coach 126; 226.
Arm 117; 217 is (at least partly) movable relative to the rest of the base 110; 210 (in particular with respect to the well 115; 215 for receiving the compressible element 150; 250) so that the lug 119; 219 can be moved away from the outgrowth 156; 256 in order to release the compressible element 150; 250, which can then extend until the head 155; 255 of the cap 154; 254 comes into contact with finger 127; 227 of coach 126; 226.
The stiffness characteristics of the compressible element 150; 250 (here precisely of the spring 152; 252) are such that the compressible element 150; 250 (here the head 155; 255) then exerts a sufficient force on the coach 126; 226 to keep it in only one of the two stable positions of the switching mechanism 120; 220, except when a user exercises on coach 126; 226 a force opposite to that generated by the compressible element 150; 250: the electrical switch 100; 200 then operates as a push button.
In the example described here, the arm 117; 217 is partly movable because of its shape (elongated) and its thickness (small) which give it a certain flexibility allowing a displacement of the lug 119; 219 relative to the edge of window 111; 211 carrying arm 117; 217. As a variant or in addition, provision could be made to connect the arm 117; 217 at the relevant edge of window 111; 211 by a part of reduced thickness, which also allows the movement of the part of the arm 117; 217 with lug 119; 219 relative to the edge of window 111; 211 (and compared to the rest of the base 110; 210).
We also note, as shown in Figures 4, 10 and 13, that the arm 117; 217 is arranged (in particular because of its orientation) so as to define a stable position when the projection 156; 256 of the cap 154; 254 abuts against lug 119; 219 carried by the arm 117; 217.
When the retaining element (here the arm 117; 217) is moved away from the compressible element 150; 250 (in practice by the user as explained in detail below), the retaining element (here the arm 117; 217) reaches another stable position so as not to interfere (unintentionally) with the compressible element 150 ; 250.
It is here provided to do this that, during the movement of the arm 117; 217 from its position for retaining the compressible element 150; 250 at its position away from the compressible element 150; 250, a part (here the free end) of the arm 117; 217 comes into contact, then exceeds a corresponding part of the base 110; 210 (here an edge of the window 111; 211, precisely the edge of the window 111; 211 opposite to that carrying the arm 117; 217), for example due to the elasticity of one and / or the other of said parties.
As can be seen in FIGS. 3 and 9, at least one of these parts (namely here the free end of the arm 117; 217 and the edge of the window 111; 211) can moreover have a free end of reduced thickness to facilitate the passage of the part carried by the arm 117; 217 beyond the part carried by the rest of the base 110; 210.
In the example described here, when the free end of the arm 117; 217 extends beyond the edge of window 111; 211, this free end remains in abutment on this edge of the window 111; 211, on the side opposite the compressible element 150; 250, so that the arm 117; 217 extends through window 111; 211, as clearly visible in FIGS. 6 and 11.
In the embodiment of Figures 1 to 7, the arm 117 is connected to the rest of the base at the rear edge of the window 111 so that the free end of the arm 117 is located near the front edge of the window 111 (when the arm 117 is in its position for retaining the compressible element 150), or in abutment on the front edge of the window 111 (when the arm 117 is in its position away from the compressible element 150).
Thus, in this embodiment, the arm 117 can be maneuvered from the front of the base 110, as clearly visible in FIGS. 5 and 7 and explained now.
FIG. 4 shows the situation in which the retaining element (here the arm 117 provided with the lug 119) is in its position for retaining the compressible element 150 in its compressed position inactive vis-à-vis the coach 126.
The coach 126 can then take one or the other of its two stable positions under the action of the user (by means of the key 140): the electric switch 100 operates in back-and-forth mode .
If he rather wishes to operate in push button mode, the user moves the free end of the arm 117 (typically with a tool, here a flat screwdriver 300 as shown in FIG. 5) towards the window 111 until this free end exceeds the front edge of window 111 and remains retained in abutment on this front edge, as shown in FIG. 6.
The retaining element formed by the arm 117 provided with the lug 119 then no longer interacts with the compressible element 150, so that the compressible element 150 is released and can extend: the head 155 of the compressible element 150 comes into contact with the finger 127 formed on the driver 126, then the compressible element 150 possibly causes the coach 126 to tilt into one of the two stable positions (if the coach 126 then occupied its other stable position) and constrained in any case the coach 126 in this stable position, as shown in FIG. 6: the electric switch 100 thus operates as a push button (only a force exerted on the key 140 by the user which can then bring the coach into its other position, and only during the duration of this effort).
If he wishes to return to operation in reciprocating mode, the user exerts a force (typically by means of a tool, here again by means of a flat screwdriver 300 as shown in FIG. 7) on the free end of the arm 117 so that this free end exceeds the front edge of the window 111 (by elasticity of this front edge and / or of the free end of the arm 117 and / or of the arm 117 itself) and passes through the window 111 in the direction of the compressible element 150; simultaneously, the user swivels the driver 126 into its position where the finger 127 formed on the driver 126 compresses the compressible element 150.
These two actions (here simultaneous) allow the electrical switch 100 to return to its configuration illustrated in FIG. 4 (the protrusion 156 of the compressible element 150 coming to lodge behind the lug 119 of the retaining element) and therefore its operation. in back-and-forth mode.
In the embodiment of Figures 8 to 13, the arm 217 is connected to the rest of the base at the front edge of the window 211 so that the free end of the arm 217 is located near the rear edge of the window 211 (when the arm 217 is in its position for retaining the compressible element 250, as clearly visible in FIG. 9), or in abutment on the rear edge of the window 211 (when the arm 217 is in its position separated from the compressible element 250 visible in FIG. 11).
Thus, in this other embodiment, the arm 217 can be operated from the rear of the base 210, as shown in FIG. 12 and explained now.
FIG. 10 presents the situation in which the retaining element (here the arm 217 provided with the lug 219) is in its position for retaining the compressible element 250 in its compressed position inactive vis-à-vis the coach 226.
The trainer 226 can then take one or the other of its two stable positions under the action of the user: the electric switch 200 operates in back-and-forth mode.
If he rather wishes to operate in push button mode, the user moves the free end of the arm 217 (typically with a tool such as a flat screwdriver, acting from the rear of the base 210) towards the window 211 until in that this free end exceeds the rear edge of the window 211 and remains retained in abutment on this rear edge, as shown in FIG. 11.
The retaining element formed by the arm 217 provided with the lug 219 then no longer interacts with the compressible element 250, so that the compressible element 250 is released and can extend: the head 255 of the compressible element 250 comes into contact with the finger 227 formed on the trainer 226, then the compressible element 250 eventually causes the trainer 226 to tip into one of the two stable positions (if the trainer 226 then occupied its other stable position) and constrained in any case the trainer 226 in this stable position, as shown in FIG. 11: the electric switch 200 thus operates as a push button (only a force exerted by the user can then bring the trainer 226 into its other position, and this only during the duration of this effort).
If he wishes to return to operation in back-and-forth mode, the user exerts a force (typically by means of a tool, here by means of a flat screwdriver 400 as shown in FIG. 12) on the end free of the arm 217 so that this free end exceeds the rear edge of the window 211 (by elasticity of this front edge and / or of the free end of the arm 217 and / or of the arm 217 itself) and passes through the window 211 towards the compressible element 250, as shown in FIG. 12.
The user also switches the driver 226 into its position where the finger 227 formed on the driver 226 compresses the compressible element 250 until the flange 256 of the compressible element 250 passes behind the lug 219 formed on the arm 217 and that the retaining element formed by the arm 217 provided with the lug 219 thus retains the compressible element 250 in its inactive position vis-à-vis the driver 226: the electrical switch 200 finds its configuration allowing operation in back-and-forth mode (where the coach can take the two stable positions illustrated respectively in FIGS. 10 and 13).
Provision may be made for the user to simultaneously exercise the action of moving the free end of the arm 217 (shown in FIG. 12) and the tilting action of the driver 226 in its position shown in FIG. 13 in order to return to configuration in back-and-forth mode.
It is also possible to provide for positioning and dimensioning the arm 217 so that after the free end of the arm 217 has passed the rear edge of the window 211 (under the effect of the tool 400) as shown in FIG. 12, the arm
217 is in its position where it is able to retain the compressible element 250, and that the passage of the flange 256 against the lug 219 (due to the tilting of the driver 226 by the user) does not cause a sufficient force for the arm 217 to return, through the window 211, to its position illustrated in FIG. 11.
The return to the configuration in back-and-forth mode can then be done in two distinct stages: the displacement of the free end of the arm 217 beyond the rear edge of the window 211 as shown in FIG. 12, then the compression of the compressible element 250 by tilting the driver 226 as shown in FIG. 13 (the arm 217 remaining in its position where it is able to retain the compressible element 250 even when the flange 256 comes into contact with the lug 219).

权利要求:
Claims (11)
[1" id="c-fr-0001]
1. Electric switch (100; 200) comprising:
- a base (110; 210),
- a driver (126; 226) mounted rocking in the base (110; 210) between two stable positions for bringing a movable contact element into contact or out of contact with a fixed contact element (131),
- a compressible element (150; 250) adapted to be inactive vis-à-vis the coach (126; 226), to leave the coach free to take one or the other of the two stable positions, and be received between a support surface of the base (110; 210) and the coach (126; 226) and forced against the coach (126; 226), to force the coach (126; 226) to take a single of the two stable positions,
- A retaining element (117, 119; 217, 219) made integrally with the base (110; 210) and adapted to maintain the compressible element (150; 250) in its inactive state with respect to the driver (126; 226), characterized in that the retaining element (117, 119; 217, 219) is reversibly movable between a retaining position where it maintains the compressible element (150; 250) in its state inactive vis-à-vis the coach (126; 226) and an open position where it leaves free the extension of the compressible element (150; 250) to the coach (126; 226).
[2" id="c-fr-0002]
2. An electrical switch according to claim 1, wherein the compressible element (150; 250) comprises a spring (152; 252).
[3" id="c-fr-0003]
3. An electrical switch according to claim 1 or 2, wherein the compressible member comprises a cap (154; 254).
[4" id="c-fr-0004]
4. An electrical switch according to claim 3 taken in dependence on claim 2, wherein the spring (152; 252) is mounted compressed between the base (110; 210) and the head (155; 255) of the cap (154; 254).
[5" id="c-fr-0005]
5. Electrical switch according to one of claims 1 to 4, wherein the base (110; 210) comprises a peripheral edge (116; 216) forming an apparatus support.
[6" id="c-fr-0006]
6. Electrical switch according to one of claims 1 to 5, wherein the retaining element comprises an arm (117; 217) provided with a lug (119; 219) adapted to hold the compressible element (150; 250 ) in its inactive state.
[7" id="c-fr-0007]
7. An electrical switch according to claim 6, in which the base (110; 210) comprises a peripheral wall (114; 214) and in which the arm (117; 217) extends in line with a window (111; 211 ) formed in the peripheral wall (114; 214).
[8" id="c-fr-0008]
8. An electrical switch according to claim 7, wherein the arm (117; 217) extends from a first edge of the window (111; 211).
5
[9" id="c-fr-0009]
9. An electrical switch according to claim 8, in which a free end of the arm (117; 217) is in abutment against a second edge of the window (111; 211) opposite to the first edge of the window (111; 211) when the the retainer (117, 119; 217, 219) is in the retracted position.
[10" id="c-fr-0010]
10. An electrical switch according to claim 9, in which the
10 first edge is a rear edge of the window (111) so that the free end of the arm (117) is accessible at a front region of the base (110).
[11" id="c-fr-0011]
11. An electrical switch according to claim 9, wherein the first edge is a front edge of the window (211) so that the free end of the arm (217) is accessible from the rear of the base (210).
118
2/3
116
155
3/3

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RU2030006C1|1990-06-12|1995-02-27|Леонид Петрович Абара|Device for commutation of electric circuit|

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DE19720611A1|1997-05-16|1998-11-19|Abb Patent Gmbh|Monostable electrical switching device|

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FR2917858B1|2007-06-20|2013-03-29|Legrand France|TILT-LEVER CONTROL MECHANISM WITH MULTIPLE CONFIGURATIONS AND APPLICATION|

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FR2953638B1|2009-12-09|2011-12-23|Legrand France|CONFIGURABLE WALL ELECTRICAL EQUIPMENT WITH INCREASED SAFETY|

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RU2562057C2|2013-12-30|2015-09-10|Российская Федерация, от имени которой выступает Государственная корпорация по атомной энергии "Росатом" |Inertia-type switch|IT201900002471A1|2019-02-21|2020-08-21|4 Box Srl|Convertible manual device for electric control|

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FR3105563B1|2019-12-20|2022-01-07|Legrand France|Trim and electrical switch comprising such a trim|

法律状态:
2017-12-05| PLFP| Fee payment|Year of fee payment: 2 |

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2018-06-15| PLSC| Search report ready|Effective date: 20180615 |

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2019-12-12| PLFP| Fee payment|Year of fee payment: 4 |

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2020-12-09| PLFP| Fee payment|Year of fee payment: 5 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1662260|2016-12-09|

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FR1662260A|FR3060197B1|2016-12-09|2016-12-09|ELECTRIC SWITCH|FR1662260A| FR3060197B1|2016-12-09|2016-12-09|ELECTRIC SWITCH|

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ES17204773T| ES2784959T3|2016-12-09|2017-11-30|Electrical switch|

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EP17204773.0A| EP3333870B1|2016-12-09|2017-11-30|Electrical switch|

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RU2017142688A| RU2741402C2|2016-12-09|2017-12-07|Electric switch|