• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to an apparatus support (100) comprising a frame (107) whose internal edge is extended towards the rear by a side wall (117) delimiting a housing (110) closed at the rear by a wall of bottom (116) arranged to receive at least three electrical connection terminals (140) housed in three compartments. According to the invention, said bottom wall completely closes said housing, individual orifices give access, from outside the housing directly to one of said compartments, and at least one insulation cover (130) is attached to said housing, which encloses said connection terminals and which has individual openings (135) giving access, from inside the housing, to the compartments. The invention also relates to an electrical apparatus comprising an apparatus mechanism removably fixed in such a support.
    公开号:FR3084781A1
    申请号:FR1857165
    申请日:2018-07-31
    公开日:2020-02-07
    发明作者:Boris Brasseau;Simon DELMAS
    申请人:Legrand SA;
    IPC主号:
    专利说明:

    Technical field to which the invention relates
    The present invention relates generally to the field of electrical equipment, and, in particular, electrical equipment supports.
    It relates more particularly to an apparatus support comprising a frame provided with means of attachment to an electrical box, this frame having an internal edge which delimits a mounting opening of an apparatus mechanism, this internal edge being extended towards the rear by a side wall which delimits a housing for receiving said fitting mechanism, said housing being closed at the rear by a bottom wall arranged to receive at least three electrical connection terminals housed in three compartments.
    The invention also relates to an electrical appliance comprising such an appliance support and an appliance mechanism fixed in the housing for receiving this appliance support.
    TECHNOLOGICAL BACKGROUND
    Document EP2477290 in particular discloses an apparatus support of the aforementioned type. Such an apparatus support is capable of receiving different apparatus mechanisms. It is arranged with a wide opening in the bottom of the housing so as to allow the introduction of tools to properly connect to the connection terminals the electrical wires from the network.
    With this switchgear, an installer can easily access the connection terminals, both from the outside and from the inside of the housing, so that it is easy to arrange the power supply wires correctly.
    However, the easy access to the electrical elements carried by this apparatus support prohibits that any user, not specialist in electrical installations, can easily himself, without particular precautions, change the apparatus mechanism received in this support.
    Object of the invention
    In order to remedy the aforementioned drawback of the state of the art, the present invention provides a secure device support, which allows a non-specialized user to change the device mechanism received in said support without having access to the elements of electrical connection of the switchgear support.
    More particularly, according to the invention, an apparatus support of the aforementioned type is proposed, in which said bottom wall completely closes said housing, in which individual orifices are provided, each giving access, from outside the housing, directly to a of said compartments for the electrical supply of the connection terminal housed in said compartment, and in which there is provided at least one insulation cover fitted in said housing, which encloses said connection terminals and which has individual openings each giving access , via the mounting opening, from inside the housing, directly to one of the compartments for the introduction of a connection pin of the fitting mechanism into the connection terminal housed in said compartment.
    Thus, the electrical connection terminals are supplied from outside the housing, and, once the apparatus support fixed in the electrical box, these connection terminals are only accessible from inside the housing, via the individual openings of the insulation cover.
    The insulation cover thus forms a means of securely enclosing the connection terminals inside the apparatus support, protecting the user from contact with the electrical connection elements of the support. The fact that the insulation cover is attached to the support housing facilitates the manufacture of the support.
    Once the switchgear support is correctly supplied by the electrical wires of the network, and installed in the electrical box, any user can safely connect the switchgear mechanism in the support, without risking touching or modifying the connection of the terminals electrical connection. It suffices to insert said fitting mechanism into the receiving housing, so that each of the connection pins of said fitting mechanism are inserted into the corresponding connection terminal of the support.
    In addition, the switchgear support can receive different types of switchgear mechanisms, and thus allows the modularity of the electrical switchgear in that it allows a change of electrical function of said electrical switchgear, in complete safety.
    Other non-limiting and advantageous characteristics of the apparatus support in accordance with the invention, taken individually or in any technically possible combination, are the following:
    - at least one of the dimensions of each individual opening of each insulation cover is less than or equal to 3.2 millimeters;
    - at least one of the dimensions of each individual opening of each insulation cover is less than or equal to 1.2 millimeters;
    - Said compartments are formed by arrangements provided on an internal face of the bottom wall;
    - the individual orifices belong to the bottom wall;
    - Each insulation cover is a cover attached to the inside of the housing, which covers said arrangements for closing said compartments;
    - There are provided on the bottom wall means for positioning the insulation cover;
    - Non-electric twinning means are provided intended to cooperate with said fitting mechanism;
    - the non-electric twinning means are carried by the insulation cover;
    - Said bottom wall is arranged to receive eight connection terminals housed in eight compartments, along two lines of four compartments;
    - There are two insulating covers fitted in said housing and each enclosing four connection terminals;
    - There is provided at least one keying means adapted to cooperate with said fitting mechanism;
    - said polarizing means is carried by one of the two insulation covers;
    - said coding means is distinct from said individual access openings to connection terminals; and,
    - Said polarizing means of the insulation cover is a slot.
    The invention also provides an electrical apparatus comprising an apparatus support according to the invention and an apparatus mechanism fixed in said housing in a removable manner.
    Thus, a user can easily change the function of the electrical device by removing the device mechanism associated with this function and replacing it with another device mechanism carrying another function of the same type. It can, for example, easily and without danger, change a power mechanism of the "socket" type by a power mechanism of the "USB socket" type. It can also change a switching mechanism of the "single switch" type to a switching mechanism of the "double back and forth" type.
    Detailed description of an example of realization
    The description which follows with reference to the appended 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 a schematic perspective view before of a first embodiment of an apparatus support according to the invention;
    - Figure 2 is a schematic exploded perspective view of the apparatus support of Figure 1;
    - Figure 3 is a schematic rear perspective view of the apparatus support of Figure 1 in which is mounted an apparatus mechanism;
    - Figure 4 is a schematic rear perspective view of the insulation cover belonging to the apparatus support of Figure 2;
    - Figure 5 is a schematic exploded perspective view of an electrical apparatus according to the invention comprising the apparatus support of Figure 1 and an apparatus mechanism chosen from one of the first, second, third and fourth mechanisms d 'apparatus shown, said electrical apparatus being received in an electrical box and covered by a cover plate;
    - Figures 6, 7 and 8 are schematic rear views of the first, third and fourth apparatus mechanism shown in Figure 5;
    - Figure 9 is a schematic perspective view cut away from an electrical apparatus according to the invention;
    - Figure 10 is a schematic view of a section of the electrical apparatus of Figure 9;
    - Figure 11 is a schematic exploded perspective view of a second embodiment of an apparatus support according to the invention;
    - Figure 12 is a schematic front view of the apparatus support of Figure 11;
    - Figure 13 is a schematic rear perspective view of the apparatus support of Figure 11; and,
    - Figures 14 and 15 are schematic rear views of a fifth and sixth gear mechanism adapted to be mounted in the gear support of Figure 11.
    As a preliminary, it will be noted that the identical or similar elements of the different embodiments of the invention shown in the different figures will, as far as possible, be referenced by the same reference signs and will not be described each time.
    By convention, the terms "front" and "rear" will be used in relation to the direction of the user's gaze turned towards the electrical equipment mounted in the wall. Thus, the front of an element will designate the side of this element that faces the user, and the rear will designate the opposite side.
    The terms "internal" and "external" will be used to refer to the housing of the device support. Thus, an internal face is a face turned inside the housing while an external face is a face turned outside the housing.
    In Figures 1 to 3, there is shown, in isolation, a first embodiment of an apparatus support 100 according to the invention. In FIGS. 11 to 13, there is shown, in isolation, a second embodiment of an apparatus support 200 which will be essentially described by highlighting its differences compared to the first embodiment.
    In Figure 5, there is shown the first embodiment of the apparatus support 100, in situation. This apparatus support 100 is provided for fixing to an electrical box 10 and for removably receiving an apparatus mechanism 20; 30 ; 40; 70 with automatic connection by connection pin, and a cover plate 90. The switchgear support 100 and the switchgear mechanism 20; 30 ; 40; 70 together form an electrical apparatus 1 in accordance with the invention, the covering plate 90 being intended to aesthetically cover the apparatus support 100 around the hubcap 22; 32; 42; 72 of the fitting mechanism 20; 30 ; 40; 70.
    As shown in Figure 5, the electrical box 10 is here a recessed box to be hung in a recessed hole of a hollow partition. More specifically, the electrical box 10 is here provided to be attached to a wall wall (not shown), so that its front opening is flush with the front face of this wall. Alternatively, the electrical box could also be of the type to be sealed in a masonry wall or to be fixed projecting from a wall.
    As shown in Figure 5, the electrical box 10 has a side wall 15 which is closed at the rear by a bottom wall 19. Here, this electrical box 10 has a cylindrical shape, but it could have a different shape, in particular cuboid.
    The electrical box 10 has, in its side wall 15 and in its bottom wall 19, passage openings 15B initially closed by knock-out or tear-off lids, into which can be inserted sheaths for insulating electrical wires (or fibers optical) from an electrical network.
    The side wall 15 of the electrical box 10 further internally carries two screw holes 11, diametrically opposite, in each of which a fixing screw (not shown) is screwed to fix the apparatus support 100 on the electrical box 10.
    As shown in Figure 5, the apparatus support 100 is distinct from both the electrical box 10 and the apparatus mechanism 20; 30 ; 40; 70. It thus forms an intermediate piece between the electrical box 10 and the switchgear mechanism 20; 30 ; 40; 70. It is used for mounting said apparatus mechanism 20; 30 ; 40; 70 inside said electrical box 10. Here, all of the apparatus support 100, except the connection terminals 140 which it receives, is made of an insulating material of rigid plastic type, for example ABS or in PC.
    As shown in Figures 1 to 3, the device support 100 includes a frame 107 defined between an outer edge and an inner edge which defines a mounting opening 115 of the device mechanism 20; 30 ; 40; 70. The frame 107 is here generally flat and has a square shape formed by four branches 101, 102, 103, 104. As a variant, its shape could be any, for example generally circular.
    The frame 107 is provided with fixing means 111, 112, 113, 114 to the electrical box 10. As shown more precisely in FIGS. 1 and 2, each of the four branches 101, 102, 103, 104 of the apparatus support 100 has in its center an orifice 111, 112, 113, 114 through which it is possible to attach the support 100 to the electrical box 10. Each orifice 111, 112, 113, 114 here has the form of a keyhole, it is that is, with a predominantly elongated portion 111 A, 112A, 113A, 114A and a circular end 111 B, 112B, 113B, 114B (see FIG. 1). To fix the switchgear support 100 on the electrical box 10, thread the heads of the two pre-screwed fixing screws in the screwing wells 11 of the electrical box 10, through the circular ends 111 B, 112B , 113B, 114B of two of the diametrically opposite orifices 111, 112, 113, 114 of the support, to pivot the apparatus support 100 around its center so as to slide the elongated parts 111A, 112A, 113A, 114A of these two orifices 111, 112, 113, 114 along the threaded bodies of the two fixing screws, and to screw the two fixing screws into the screwing wells 11 so that the heads of these screws rest on the front face of the frame 107 of the apparatus support 100. This operation enables the apparatus support 100 to be fixedly fixed relative to the electrical box 10.
    As shown in Figures 1 and 2, each branch 101, 102, 103, 104 of the frame 107 also has slots 109 adapted to allow the attachment of the covering plate 90. Once fixed on the apparatus support 100, the covering plate 90 hides the latter, while aesthetically bordering the hubcap 22; 32; 42; 72 of the fitting mechanism 20; 30 ; 40; 70 (see Figure 5). This covering plate 90 is therefore generally snapped onto the frame 107 only once the fitting mechanism 20; 30 ; 40; 70 housed in housing 110.
    The shape of the internal edge of the frame 107 of the apparatus support 100, which delimits the mounting opening 115, is provided to allow the pedestal 25 to be inserted therein; 35; 45; 75 of the fitting mechanism 20; 30 ; 40 fitted with hubcap 22; 32; 42; 72 (see Figure 9). Here, as shown in Figure 1, the mounting opening 115 generally has a square shape with curved sides, with a radius of curvature facing outwards, and with cut angles. Of course, its shape could be different, depending on the shape of the base of the fitting mechanism and / or depending on the electrical box in which the fitting mechanism is mounted, in order to guarantee the angular take-up of the support. fitting.
    As shown in FIG. 1, the internal edge of the frame 107 is extended towards the rear by a side wall 117 which delimits a housing 110 for receiving said fitting mechanism 20; 30 ; 40; 70. This side wall 117 extends towards the rear, generally perpendicular to the mean plane of the frame 107.
    Said housing 110 is closed at the rear by a bottom wall 116 arranged to receive at least three electrical connection terminals 140 housed in three compartments (see FIGS. 1 and 2). Each connection terminal 140 is intended to receive the connection pin 28; 48; 78 corresponding to the fitting mechanism 20; 30 ; 40; 70.
    Remarkably, the bottom wall 116 completely closes said housing 110, only individual orifices 125 each give access, from outside the housing 110, directly to one of said compartments for the electrical supply of the connection terminal housed in this compartment (see FIG. 3), and said connection terminals are enclosed by at least one insulation cover 130 fitted in said housing 110, insulation cover 130 which has individual openings 135 each giving access, via the mounting opening 115, from inside the housing 110, directly to one of the compartments for the introduction of a connection pin 28; 48; 78 of the fitting mechanism 20; 30 ; 40; 70 in the connection terminal 140 housed in said compartment (see FIG. 1).
    Thus, the bottom wall 116 guarantees the safety of the user, who, once the apparatus support 100 fixed on the electrical box 10, can no longer access the electrical supply wires arriving in the electrical box 10, these the latter being hidden behind the bottom wall 116 of the housing 110. In other words, once the apparatus support 100 connected to the electrical supply wires coming from the network and mounted in the electrical box 10, the bottom wall 116 closing the support switchgear 100 prevents the user from accessing the electrical active parts of switchgear support 100. It is therefore not possible for the user to modify the electrical connection of switchgear support 100, which is safer . In addition, the user does not have access to the connection terminals 140 housed in the apparatus support 100, the latter being accessible only from outside the support, via the individual orifices 125, and, from the inside, via the individual openings 135 of the insulation cover 130.
    As shown in FIG. 1, the bottom wall 116 is here generally flat and extends parallel to the frame 107 of the apparatus support 100, at a distance from the mounting opening 115.
    In particular, as shown in Figures 2 and 3, the bottom wall 116 closing the housing 110 at the rear here belongs to a base 120 attached to a front support part 100A. This base 120 comprises said bottom wall 116 bordered by a side wall 122 extending forward. The front edge 122A of the side wall 122 of the base 120 is fitted against the rear edge 105B of a side wall 105 of the front support part 100A which extends to the rear of the frame 107 bordering the mounting opening 115.
    The housing 110 is thus delimited, on the one hand, laterally, by the side wall 105 of the front support part 100A and by the side wall 122 of the base 120 which extends in its extension, and, on the other hand, at the rear, through the bottom wall 116 of the base 120. In other words, the side wall 105 of the front part 100A and the side wall 122 of the base 120 together form the side wall 117 of the housing 110, while the wall of bottom 116 of the base 120 forms the bottom wall which completely closes, at the rear, the housing 110 of the apparatus support 100.
    As shown in FIG. 1, the housing 110 of the apparatus support 100 is almost entirely closed, with the exception of two diametrically opposed windows 106, provided in the side wall 105 of the front support part 100A for fixing the base 25; 35; 45; 75 of the fitting mechanism 20; 30 ; 40; 70 in said housing 110. The interior of housing 110 is thus only accessible from the front of the apparatus support 100, via the mounting opening 115.
    As shown in Figure 2, the bottom wall 116 of the base 120 is here provided to accommodate four connection terminals 140, in four compartments isolated from each other. More specifically, the internal face of the bottom wall 116 of the base 120 supports arrangements materializing the compartments intended to house the connection terminals 140. These arrangements comprise here five partitions 124 extending, forward, from the bottom wall 116, perpendicular to this bottom wall 116. The compartments are thus respectively delimited, on the one hand, laterally, on three sides out of four, by the partitions 124 and a portion 122P of the side wall 122 of the base 120, and, on the other hand, at the rear, by a part of the bottom wall 116 of the base 120.
    Here, as shown in Figures 2 and 10, each connection terminal 140 is designed to be connected, on the one hand, to one of the connection pins 28; 48; 78 of the fitting mechanism 20; 30 ; 40; 70, and, on the other hand, to an electric wire for its supply by the electric network.
    The connection of the fitting mechanism 20; 30 ; 40; 70 by pin facilitates the electrical connection of said fitting mechanism 20; 30 ; 40; 70 by the user, the connection terminals 140 also being supplied electrically by the network.
    Here, as shown in Figures 2 and 10, each terminal 140 generally comprises a conductive support 144 and a leaf spring 146. More specifically, the conductive support 144 is here formed by folding a metal blade and comprises, on the one hand , a first portion forming a connection socket 148 intended to receive the connection pin 28; 48; 78 of the fitting mechanism 20; 30 ; 40; 70, and, on the other hand, a second portion forming a conductive cage 149 intended to receive the stripped core of an electric wire. The conductive cage 149 is pierced with two holes 147, forming a pair of holes 147, one of the two holes 147 being intended for the introduction into the conductive cage 149 of the stripped end of an electric wire coming directly from the network, while that the other hole 147 is intended for the introduction into the conductive cage 149 of the stripped end of an electrical transplanting wire leaving towards a connection terminal of another apparatus support of the same type and intended to supply electrically this other support. The leaf spring 146 is provided in the conductive cage 149 and intended to automatically block the bare cores thus introduced into this conductive cage 149, so that these bare cores are brought into contact and held against the metal of the conductive cage 149.
    Here, as shown in Figures 6 to 8, the connection pins 28; 48; 78 of the fitting mechanisms 20; 40; 70 are flat, and the connection cells 148 of the connection terminals 140 of the apparatus support 100 have a complementary form of lyre to receive the flat pins.
    As shown in FIG. 2, the connection terminals 140 are all aligned in a common direction so that the connection cells 148, which here have a lyre shape, of these connection terminals 140 are also aligned.
    As shown in FIG. 3, the individual orifices 125 provided to give access, from the outside of the apparatus support 100, to the compartments, here belong to the bottom wall 116 of the base 120. More specifically, a pair of orifices 125 individual, here circular, opens into each compartment. The connection terminals 140 are positioned in the compartments so that the pair of holes 147 of each of the connection terminals 140 comes opposite the pair of individual orifices 125 of the compartment in which the connection terminal 140 is housed.
    The size of the individual orifices 125 is such that only electrical wires can be inserted therein. In particular, in each compartment, one of the individual orifices 125 is used for the introduction, into the conductive cage 149 of the connection terminal 140, of an electrical supply wire coming from the network to supply said connection terminal 140, l 'Another individual orifice 125 used for the introduction into said conductive cage 149 of an electrical transplanting wire to supply the connection terminal of another neighboring support of the same type.
    Of course, according to a simplified variant of the apparatus support, it could be provided that each connection terminal of the support has only one hole, positioned opposite a single individual orifice of the compartment in which it is housed, for the introduction of a single supply wire into the conductive cage of the connection terminal.
    Advantageously, in the embodiments shown, the insulation cover 130 is a cover attached inside the housing 110, on the connection terminals 140, so as to close, at the front and laterally, the compartments (see figures 1 and 2).
    Thanks to the insulation cover 130, the safety of the user is guaranteed since he cannot access the active parts of the connection terminals 140.
    More specifically, as shown in Figures 2 and 4, the insulation cover 130 has an "L" shaped profile. It has a main wall 132 extending generally parallel to the bottom wall 116 of the base 120. This main wall 132 has three edges 133A, 133B, 133C intended to match the internal face 117A of the side wall 117 of the housing 110, and a free edge 133D from which extends, perpendicularly and towards the rear, a secondary wall 134. The main wall 132 closes at the front the compartments housing the connection terminals 140, and the secondary wall 134 closes said compartments on the last lateral side (see figure 2).
    As shown in Figure 2, the base 120 is arranged to receive the insulation cover 130 so that it encloses and maintains the connection terminals 140 in the compartments. It is in particular provided that the insulation cover 130 fits on the base 120. More precisely, as shown in FIGS. 2 and 4, the front edge 122A of the side wall 122 of the base 120 has a hook 122C then s 'widens so as to form a contact surface 122B against which the rear face 132B of the main wall 132 of the insulation cover 130 is designed to be joined. When the insulation cover 130 is thus placed on the base 120, the hook 122C of the front edge 122A of the base 120 fits with a complementary hook 133E of the edges 133B, 133C of the insulation cover 130. In this position, the front face 132A of the main wall 132 of the insulation cover 130 s 'extends in the same plane as the front edge 122A of the base 120.
    To facilitate the positioning and positioning of the insulation cover 130 on the base 120, means are provided on the bottom wall 116 of the base 120 for positioning the insulation cover 130. As shown in the figures 2 and 4, these positioning means are here formed by some of the partitions 124 of the base 120 which are intended to be introduced into positioning corridors extending behind the insulation cover 130. Each positioning corridor is delimited between two juxtaposed low walls 139 carried by the rear face of the main wall 132 of the insulation cover 130.
    As shown in FIGS. 1 and 2, the individual openings 135 of the insulation cover 130 allow access to each connection terminal 140. These individual openings are more precisely formed by slots 135 passing right through the main wall 132 of the insulation cover 130. These slots 135 extend along the same line so that each slot 135 opens into the "connection socket 148" part of one of the connection terminals 140 housed in the compartments.
    Advantageously, at least one of the dimensions of each slot 135 is less than or equal to 1.2 millimeters. Thus, only very fine objects can penetrate the connection terminals 140. In other words, the slots 135 of the insulation cover 130 provided to be crossed by the connection pins 28; 48; 78 plates of the fitting mechanism 20; 30 ; 40; 70 are such that they cannot be crossed by an element having two dimensions greater than 1.2 mm. This is very safe for the user.
    Advantageously, non-electric twinning means are provided on the apparatus support 100 intended to cooperate with parts of the base 25; 35; 45; 75 insulator of the fitting mechanism 20; 30 ; 40; 70. These non-electric twinning means guarantee that, during the mounting of the base 25; 35; 45; 75 of the fitting mechanism 20; 30 ; 40; 70 on the apparatus support 100, the connection pins 28; 48; 78 of the fitting mechanism 20; 40; 70 which emerge outside the base 25; 35; 45; 75 are pre-positioned as precisely as possible opposite the slots 135. Thus, thanks to the non-electric twinning means, when the base 25; 35; 45; 75 is pushed further into the device support 100, said connection pins 28; 48; 78 are inserted through the slots 135 of the insulation cover 130 to connect correctly in the connection terminals 140 of the apparatus support 100.
    These twinning means are here carried by the insulation cover 130. As shown in FIGS. 1 and 2, they are formed by three twinning slots 138 intended to receive three corresponding low walls projecting from the base 25; 35; 45; 75 of the fitting mechanism 20; 30 ; 40; 70. More specifically, each twinning slot 138 here extends between two slots 135 of the insulation cover 130, orthogonally to said slots 135. As shown in Figures 2 and 4, each twinning slot 138 is bordered at the rear , by the two low walls 139 juxtaposed forming one of the positioning corridors of the insulation cover 130 described above. In practice, each twinning slot 138 opens, at the rear, into one of the positioning lanes of the insulation cover 130, and is made blind by closing said positioning lane when the insulation cover 130 is put in place. place on the base 120 and that the partition 124 penetrates said corridor.
    The assembly of the apparatus support 100 is carried out as follows. The connection terminals 140 are attached to the compartments of the base 120 and the insulation cover 130 is placed on the base 120 so as to close the compartments. In doing so, the partitions 124 penetrate into the positioning passages of the insulation cover 130, so that, on the one hand, the connection terminals 140 are triply isolated from each other, that is to say insulated by three adjoining walls (the walls 139 and the partition 124), and, on the other hand, the twinning slots 138 of the insulation cover 130 are made blind (by the partition 124). The subassembly formed by the base 120 and the insulation cover 130 is then attached to the side wall 105 of the front support part 100A. As shown in Figure 2, to securely hold the base 120, the insulation cover 130 and the front portion 100A of support together, there are four legs 105C extending in the extension of the rear edge 105B of the side wall 105 , in line with the four interior corners of the frame 107 of the apparatus support 100. These tabs 105C are terminated by snap-fit teeth 105D intended to snap into windows 123 provided correspondingly in the side wall 122 of the base 120. The main wall 132 of the insulation cover 130 has two rectangular openings 136 (see FIGS. 2 and 4) serving for the passage of two of said legs 105C for the engagement of the teeth 105D in the windows 123 of the base 120. As shown FIG. 10, the insulation cover 130 is thus kept sandwiched between the base 120 and the rear edge 105B of the side wall 105 of the front support part 100A, without being able to slide between these two pieces.
    The apparatus support 100 is connected to the electrical supply wires of the electrical network by the introduction of the stripped core of each electrical wire (neutral, phase and earth in particular) into the conductive cage 149 of the terminal. corresponding connection 140, via one of the individual orifices 125 associated with the compartment housing said connection terminal 140 (see figure
    3). The stripped core of each electrical wire is held in the conductive cage of the corresponding connection terminal 140 by the leaf spring 146 of this terminal (see FIG. 10). The stripped core of the electric wire can be released from the grip of the spring blade 146 by actuating, by pressure, the stroller 126 located above the two individual orifices 125 associated with said compartment (see FIGS. 3 and 10), which allows 'remove said leaf spring 146 from the conductive cage 149.
    It is then necessary to fix the apparatus support 100 on the electrical box 10, as it was explained previously, via the fixing screws of the electrical box 10 and two diametrically opposite holes 111, 112, 113, 114 of the frame 107 of the support. 100.
    The first embodiment of the apparatus support 100 thus formed is adapted to receive as an apparatus mechanism 20; 30 ; 40; 70 a power mechanism. In particular, it can accommodate a socket outlet mechanism 20; 30, a USB socket mechanism 40, or a controllable and / or connected socket outlet mechanism 70.
    As shown in Figures 5 to 10, such an apparatus mechanism 20; 30 ; 40; 70 generally comprises a base 25; 35; 45; 75 of insulating material forming a housing housing the electrical components of the switchgear mechanism 20; 30 ; 40; 70, and a hubcap 22; 32; 42; 72 giving its electrical function to the switchgear mechanism 20; 30 ; 40; 70. Here, as can be seen in FIG. 5, the hubcap 22; 32; 72 of the outlet mechanisms 20; 30 ; 70 has a receiving well 22A; 32A; 72A to accommodate an electrical plug, while the hubcap 42 of the USB socket mechanism 40 comprises two receiving wells 42A of USB connectors.
    The outlet mechanisms 20; 30 are identical in all respects except that the well for receiving the electrical plug of one of these switchgear mechanisms 20 has a movable piston 23 flush with the front face 22A of the hubcap 22 when the socket is unused. This movable piston 23 is pushed backwards when a plug is connected to the socket 20 (see Figure 5).
    The outlet mechanism 70 which can be controlled and / or connected is very similar to the outlet mechanisms 20; 30 classics except that it is accessible remotely, for example via the internet or via a local infrared or radio transmitter for example. Such a socket outlet mechanism 70 can in particular be controlled by a user who is not physically near the socket.
    Whatever the fitting mechanism 20; 30 ; 40; 70 envisaged, the base 25; 35; 45; 75 is designed for quick and easy connection of said fitting mechanism 20; 30 ; 40; 70 in the apparatus support 100.
    As shown more precisely in Figures 6, 7, 8 and 10, the bottom wall 25B; 45B; 75B of the base 25; 45; 75 is generally planar with a projection 26; 46; 76 which internally delimits a housing in which are housed the electrical components of the socket outlet mechanism 20; 70 or from USB 40. The connection pins 28; 48; 78 of the fitting mechanism 20; 40; 70 are connected to these electrical components and pass through the flat part of the bottom wall 25B; 45B; 75B of the base 25; 45; 75 so as to project from the rear of the base 25; 45; 75, orthogonally to said bottom wall 25B; 45B; 75B. Here, as shown in Figures 6 to 8, the connection pins 28; 48; 78 are flat and extend along the same line.
    As seen in Figures 6 and 8, the socket outlet mechanism 20; 70 comprises in particular a connection pin 28; 78 intended to connect a phase terminal, identified by the symbol "L", a connection pin 28; 78 intended to connect a neutral terminal, marked with the symbol "N", and a connection pin 28; 78 for connecting an earth terminal marked with the earth symbol. As seen in FIG. 7, the USB socket mechanism 40 only has a connection pin 48 intended to connect a phase terminal, marked with the symbol "L", a connection pin 48 intended to connect a neutral terminal , marked with the symbol "N".
    Advantageously, the position of the connection pins 28; 48; 78 phase and neutral on the base 25; 45; 75 of the outlet mechanisms 20; 30 ; 70 and USB socket 40 is identical, so that these mechanisms can be connected in the same device holder 100.
    As shown in Figures 6 to 8, the bottom wall 25B; 45B; 75B of the base 25; 45; 75 of the fitting mechanism 20; 40; 70 also carries, projecting from its rear face, low walls 29; 49; 79 which extend between the connection pins 28; 48; 78, orthogonal to said bottom wall 25B; 45B; 75B. More specifically, the bottom wall 25B; 45B; 75B here has three low walls 29; 49; 79 used to isolate the connection pins 28; 48; 78 from each other. These low walls 29; 49; 79 also form the complementary twinning means intended to fit into the blind twinning slots 138 of the insulation cover 130. The walls 29; 49; 79 in particular facilitate the correct positioning of the socket outlet mechanism 20; 30 ; 70 or from USB socket 40 in the device holder 100, without risking bending the connection pins 28; 48; 78 during the insertion of said connection pins 28; 48; 78 in the connection cells 148 of the connection terminals 140 of the apparatus support 100, via the slots 135 of the insulation cover 130.
    As shown in Figures 5 to 7, regardless of the apparatus mechanism 20; 30 ; 40; 70 envisaged, the base 25; 35; 45; 75 of said apparatus mechanism 20; 30 ; 40; 70 further comprises two flexible tabs 21; 31; 41; 71 diametrically opposite, intended for fixing the base 25; 35; 45; 75 of the fitting mechanism 20; 30 ; 40; 70 on the apparatus support 100.
    As shown in Figures 6 to 8, the flexible legs 21; 41; 71 extend from the bottom wall 25B; 45B; 75B of the base 25; 45; 75, towards the front, and outside of said base 25; 45; 75.
    As shown in Figures 5 to 8, the free front end of the flexible legs 21; 31; 41; 71 is terminated by a gripping means, here in the form of a gripping tab 24; 34; 44; 74, accessible near the hubcap 22; 32; 42; 72. A fixing tooth 21A; 31A; 41A; 71A projects from the external face of the flexible tab 21; 31; 41; 71. The fixing tooth 21A; 31A; 41A; 71A of each flexible tab 21; 31; 41; 71 is intended to snap into one of the windows 106 provided in the side wall 105 of the apparatus support 100.
    As shown in FIGS. 3 and 9, each fixing tooth 21A comprises, on the one hand, a gripping surface, at the front, parallel to the front edge 106A of the window 106 of the apparatus support 100, and, on the other hand, an inclined surface, at the rear, intended to slide against the internal face of the side wall 117 of the housing 110 during the insertion of the base 25 of the fitting mechanism 20 into said housing 110 of the support d switchgear 100.
    More specifically, during the insertion of the base 25 of the fitting mechanism 20 into the housing 110 of the fitting support 100, the inclined rear surface of the fixing tooth 21A comes into contact with the side wall 117 of the housing 110 ce which has the effect of retracting the flexible legs 21 towards each other, towards the center of the fitting mechanism 20, so that the base 25 of said mechanism can slide in the direction of the bottom of the housing 110, until that the fixing teeth 21A open into the windows 106. When each fixing tooth 21A enters one of the windows 106, the flexible tab 21 which carries it resiliently returns to its initial non-retracted position. In this position, as shown in FIG. 9, the gripping surface of the fixing tooth 21A is parallel to the front edge 106A of the window 106, both perpendicular to the direction of insertion or withdrawal of the base 25 of the mechanism of apparatus 20 in or out of the apparatus support 100. The attachment surface of the fixing tooth 21 A, parallel to the front edge 106A of the window 106 and attached to the latter, thus forms a means of retaining the mechanism of forward gear. It is thus thus impossible for the switchgear mechanism 20 to separate from the switchgear support 100 under normal conditions of use of the electrical switchgear 1, for example when the electrical plug is removed from the socket-outlet mechanism 20. In other words, the fixing tooth 21 A, inserted in the window 106, coming into engagement with the front edge 106A of said window 106 prevents the involuntary separation of the fitting mechanism 20 and the fitting support 100, during a forward traction exerted on the fitting mechanism 20.
    As shown in Figures 5 to 8 and 10, the base 25; 35; 45; 75 of the fitting mechanism 20; 30 ; 40; 70 comprises, in a front part, a sidewalk 27; 37; 47; 77, intended to come to bear against an abutment surface 108 of the apparatus support 100 (see FIG. 1), said abutment surface 108 being provided set back from the frame 107 of said apparatus support 100. This sidewalk 27; 37; 47; 77 of the fitting mechanism 20; 30 ; 40; 70 and the corresponding abutment surface 108 of the apparatus support 100 together form a retaining means towards the rear of said apparatus mechanism 20; 30 ; 40; 70, which prevents the fitting mechanism 20; 30 ; 40; 70 does not sink into the electrical box 10, during a rearward thrust exerted on the apparatus mechanism 20; 30 ; 40; 70, for example when inserting an electrical plug into the socket 20; 30 ; 70.
    To electrically connect the switchgear 20; 30 ; 40;
    to the electrical network, it suffices to introduce said apparatus mechanism 20; 30 ; 40; 70 through the mounting opening 115 of the switchgear support 100 electrically supplied and installed in the electrical box 10, so as to match the connection pins 28; 48; 78 with the slots 135 of the insulation cover 130 and push until hearing an audible "click" indicating that the fixing tooth 21A; 31A; 41A; 71A of each flexible tab 21; 31; 41;
    has entered the corresponding window 106 of the apparatus support 100. As shown in FIG. 10, the corresponding connection pin 28 of the apparatus mechanism 20 is thus sandwiched in the lyre of the corresponding connection terminal 140. The apparatus mechanism 20; 30 ; 40; 70 thus becomes operational as soon as it is introduced into the housing 110. Its connection in the apparatus support 100 is very simple and is done without the need for tools.
    As shown in FIGS. 9 and 10, the apparatus mechanism 20 is then fixed in a non-removable manner on the apparatus support 100 without the human intervention of the user.
    Advantageously, the apparatus mechanism 20; 30 ; 40; 70 is nevertheless removable from said housing 110 for receiving the apparatus support 100 by means of the gripping tabs 24; 34; 44; 74 of the base 25; 35; 45; 75.
    More precisely, as shown in FIG. 9, to separate the fitting mechanism 20 from the fitting support 100, the user removes the covering plate 90 to have access to the gripping tabs 24 extending near the edge internal of the frame 107 of the fitting support 100. The user then brings the flexible tabs 21 towards each other by pinching the gripping tabs 24 towards the center of the fitting mechanism 20. This has the effect of releasing the attachment surface of the fixing teeth 21A of the front edge 106A of the windows 106 of the fitting support 100, so that it is possible to pull forward to extract the fitting mechanism 20 from the fitting support Another fitting mechanism 30; 40; 70 can then be inserted into the apparatus support 100 in place of the previous one, very simply as explained above. Thus, without having to modify the electrical connection, at the rear of the apparatus support 100, the new apparatus mechanism 30; 40; 70 will be automatically operational, its connection pins 48; 78 being designed to emerge from the base 35; 45; 75, and protrude from the rear face of said base 35; 45; 75 in the appropriate place to connect the desired current (phase, neutral or earth) via the corresponding connection terminal 140 of the apparatus support 100.
    The second embodiment of the apparatus support 200 shown in FIGS. 11 to 13 is in all points similar to the first embodiment, except that the bottom wall 216 of the housing 210 of this apparatus support 200 is designed to accommodate eight 240 connection terminals.
    Such an apparatus support 200 is particularly suitable for receiving an apparatus mechanism 50; 60 switch, such as a single switch mechanism 50, or a double switch mechanism 60.
    According to a variant not shown, this apparatus support can receive an electronic switch and / or a connected switch and remotely controllable. In practice, it should be noted that the single or double switch mechanisms described here can respectively be used as a "switch" or as a single or double "back and forth".
    As shown in FIGS. 12 and 13, the housing 210 of the apparatus support 200 is completely closed at the rear by a bottom wall formed by the bottom wall 216 of a base 220 attached to a front support part 100A . The front part 100A on which the base 220 is attached is identical to that described for the first embodiment of the apparatus support 100. On the other hand, the base 220 accommodates not four but eight connection terminals 240, in eight compartments arranged along two lines of four compartments.
    As shown in FIG. 11, the eight connection terminals 240 are identical to the connection terminals 140 of the first embodiment. The four connection terminals 240 of the same line are arranged so that their lyre is aligned. The eight connection terminals 240 are enclosed by two separate insulation covers 130, 260 attached to the bottom wall 216.
    As shown in Figure 11, the base 220 of the switchgear support 200 has a structure very close to the base 120 of the first embodiment of the support 100, but it can accommodate the eight connection terminals 240, and the two covers insulation 130, 260. To do this, the base 220 is generally symmetrical with respect to a transverse plane P passing through the center of said base 220 and extending parallel to the lines of connection terminals 240. The base 220 comprises ten partitions 224 s 'extending forward from the bottom wall 216, perpendicular to this bottom wall 216, on either side of the transverse plane P of symmetry.
    More specifically, similar to what has been described for the first embodiment of the apparatus support 100, the connection terminals 240 are housed in compartments isolated from one another, provided on the bottom wall 216 of the base 220. As shown in FIG. 11, the compartments of each line are respectively delimited, on the one hand, laterally, on three sides out of four, by five of the ten partitions 224 and a portion 222P of the side wall 222 of the base 220, and, on the other hand, at the rear, by a part of the bottom wall 216 of the base 220.
    As shown in FIG. 13, as for the first embodiment, there are provided in the bottom of each compartment two individual orifices 225, one adapted to receive an electric supply wire coming from the network and making it possible to supply electrically the connection terminal 240 housed in the compartment, the other adapted to receive an electrical transplanting wire.
    As shown in FIG. 11, each insulation cover 130, 260 is attached to a line of connection terminals 240 so as to close, from the front and laterally, this line of compartments. One of these insulation covers corresponds to the insulation cover 130 of the first embodiment while the other insulation cover 260 is very slightly different from the insulation cover 130 of the first embodiment. The two insulation covers 130, 260 differ only by a rectangular opening 137 present on the first insulation cover 130 and not on the second insulation cover 260.
    As shown in FIGS. 11 and 12, the rectangular opening is in the form of an additional slot 137, parallel to the blind twinning slots 138 of the insulation cover 130. This additional slot 137 serves as a keying means in the sense that it is adapted to cooperate with a complementary keying means carried by the base 55; 65 of the fitting mechanism 50; 60 to ensure the connection of the fitting mechanism 50; 60 in the correct direction with respect to the apparatus support 200, which guarantees that the connection pins 58; 68 fit into the appropriate connection terminals 240. This additional slot 137 is distinct from said slots 135 for access to connection terminals 240.
    As shown in Figures 14 and 15, the switch mechanisms 50; 60 generally comprise a base 55; 65 of insulating material forming a housing housing the electrical components of the switch mechanism 50; 60, and a hubcap 52; 62 giving its electrical function to the mechanism. Here, the cover 52 of the simple switch mechanism 50 has a button for actuating the switch, while the cover 62 of the double switch mechanism 60 has two buttons for actuation.
    As shown in Figures 14 and 15, the base 55; 65 of said switch mechanism 50; 60 has the same flexible legs 51; 61, each comprising a fixing tooth 51A; 61A and a gripping tab 54; 64, that the flexible legs 21; 31; 41 of the outlet mechanisms 20; 30 and the USB 40 socket described above.
    In FIGS. 14 and 15, it can also be seen that the bottom wall 55B; 65B of the base 55; 65 is generally planar. The connection pins 58 emerge from the rear face of this bottom wall 55B 65B; 68 electrical connected to the electrical components of the switchgear mechanism 50; 60. These connection pins 58; 68 extend over two parallel lines.
    As shown in Figures 14 and 15, the bottom wall 55B; 65B of the base 55; 65 of the fitting mechanism 20; 40 also carries, projecting from its rear face, low walls 59, 57; 69, 67 which extend between the connection pins 58; 68, orthogonally to said rear face. The walls 59, 57; 69, 67 allow the connection pins 58 to be isolated; 68 from each other.
    All of these walls 59, 57; 69, 67 also form the complementary twinning means intended to fit into the twinning slots 138, 268 of the two insulation covers 130, 260 and into the additional slot 137 provided in the first insulation cover 130 (see figures 11 and 12).
    The fourth wall 57; 67, disposed at the end of one of the lines of connection pins 58; 68 forms a complementary keying wall which secures the base 55; 65 of the fitting mechanism 50; 60 in the switchgear support 200, in the correct direction. This guarantees the correct connection of the connection pins 58; 68 in the appropriate connection terminals 240 of the apparatus support 200, via the slots 135, 265 (see FIG. 12).
    Whatever the embodiment of the apparatus support 100, 200, it is understood in the light of the description that it is advisable to wire the apparatus support 100, 200, during its assembly in the electrical box 10, of suitable way to supply the connection terminals 140, 240 with the phase current, neutral, earth, or transplanting, which they must receive. In particular, an installer will know how to correctly connect the switchgear support 100; 200 depending on whether it is intended to receive a power mechanism 20; 30 ; 40 or a switching mechanism 50; 60.
    Then, it is sufficient for the non-specialized user to mount / dismount by clipping / unclipping the base 25; 35; 45; 55; 65 of the fitting mechanism 20; 30 ; 40; 50; 60 desired in said switchgear support 100, 200 making sure to simply connect in the first embodiment of switchgear support 100 the switchgear mechanisms 20; 30 ; 40 of power and in the second embodiment of the apparatus support 200 the apparatus mechanisms 50; 60 switching.
    Thus, it is possible to connect different device mechanisms in the device supports 100; 200 according to the invention, without the user having to modify the electrical connection of these apparatus supports 100; 200. In other words, thanks to the apparatus support 100; 200, the electrical equipment 1 is modular with interchangeable function, in complete safety.
    The invention is in no way limited to the embodiments described and shown.
    In particular, it is conceivable that the compartments are attached to the bottom wall of the housing, instead of being provided on this bottom wall. The compartments could in particular belong to the insulation cover.
    As a variant, it is possible to envisage providing an insulation cover per connection terminal, instead of an insulation cover per line of connection terminals.
    As a further variant, it is conceivable to provide for the insulation cover to be formed by the insulating envelope of an independent connection terminal block, attached to the bottom of the housing of the apparatus support. The insulating front wall of such a terminal block is provided with individual openings opening into the connection terminals from inside the housing, and its insulating rear wall is provided with individual openings opening into the connection terminals from outside the housing. housing. The bottom wall of the housing then comprises means for receiving this terminal block, also playing the role of means for positioning the terminal block. This can in particular be means of clipping the terminal block in the bottom of the housing.
    According to this variant, the rear wall of the terminal block can complement the rear wall of the rest of the apparatus support, so that once the terminal block in place, the housing is fully closed at the rear by a wall of bottom formed by said rear walls of the terminal block and the rest of the support.
    Alternatively, the shapes of the connection pins and connection terminals could be other, as long as they are compatible with each other. One could in particular provide cylindrical pins rather than flat. In this case, the connection cells of the connection terminals of the apparatus support have a suitable complementary shape. More precisely, each connection socket is in this case delimited by two tabs folded back towards each other by forming two hairpins. The two tongues act like the jaws of a pair of pliers to clamp the cylindrical pin introduced into said socket. The individual openings of the insulation cover, through which said connection pins are inserted into the connection terminals of the support, are then in the form of circular holes. At least one of the dimensions, in particular the diameter of the hole, of each individual opening of each insulation cover is then less than or equal to 3.2 millimeters.
    It is also conceivable to provide a mechanism comprising both flat connection pins and cylindrical connection pins. In this case, the terminal connection cells are then of complementary shapes adapted to each pin, that is to say either in the form of a lyre, or in the form of a clamp jaw.
    The polarizing means can be carried directly by the bottom wall of the housing, not necessarily by the cover.
    As a variant, the bottom wall of the apparatus support could be in one piece with the front support part, instead of belonging to a base mounted against a front support part, so that the housing would then be delimited by one piece. In this case, only the insulation cover would be attached to the connection terminals, directly in the housing.
    Other switching mechanisms can be received in the second embodiment of the switchgear support. For example, it is possible to connect switch mechanisms without neutral current, detector mechanisms, electronic switch mechanisms, remotely controllable.
    It is also possible to install power switchgear mechanisms such as those described above. To do this, it should however be noted that the switchgear support comprising eight connection terminals will then be wired by the installer specifically in power. Once wired in this way, it will no longer be able to receive the switching mechanisms described above, unless the wiring of the switchgear support is modified at the rear, which requires dismantling the switchgear support and cannot be carried out. by a non-specialized user. According to this variant, provision is made to provide the base of the socket and USB socket mechanisms previously described with a coding wall similar to that described for the switch mechanisms in order to guarantee the good connection of said mechanism in said support. fitting.
    权利要求:
    Claims (16)
    [1" id="c-fr-0001]
    1. Device support (100; 200) comprising a frame (107) provided with fixing means (111, 112, 113, 114) to an electrical box, this frame (107) having an internal edge which delimits an opening of mounting (115) of an apparatus mechanism (20; 30; 40; 50; 60), this internal edge being extended towards the rear by a side wall (117) which delimits a housing (110; 210) for receiving of said fitting mechanism (20; 30; 40; 50; 60; 70), said housing (110; 210) being closed at the rear by a bottom wall (116; 216) arranged to receive at least three terminals of electrical connection (140; 240) housed in three compartments, characterized in that said bottom wall (116; 216) completely closes said housing (110; 210), in that there are individual orifices (125; 225) each giving access, from outside the housing (110; 210), directly to one of said compartments for the electrical supply of the connection terminal (140; 240) housed in said compartment, and in that there is provided at least one insulation cover (130; 130, 260) attached to said housing (110; 210), which encloses said connection terminals (140; 240) and which has individual openings (135; 135, 265) each giving access, via the mounting opening (115 ) from inside the housing (110; 210), directly to one of the compartments for the introduction of a connection pin (28; 48; 58; 68; 78) of the fitting mechanism (20; 30; 40 ; 50; 60; 70) in the connection terminal (140; 240) housed in said compartment.
    [2" id="c-fr-0002]
    2. Device support according to claim 1, wherein at least one of the dimensions of each individual opening of each insulation cover is less than or equal to 3.2 millimeters.
    [3" id="c-fr-0003]
    3. Apparatus support (100; 200) according to claim 1, wherein at least one of the dimensions of each individual opening (135; 135, 265) of each insulation cover (130; 130, 260) is less than or equal to 1.2 millimeters.
    [4" id="c-fr-0004]
    4. Apparatus support (100; 200) according to one of claims 1 to 3, wherein said compartments are formed by arrangements (124;
    224) provided on an internal face of the bottom wall (116; 216).
    [5" id="c-fr-0005]
    5. Apparatus support according to one of claims 1 to 4, wherein the individual orifices (125; 225) belong to the bottom wall (116; 216).
    [6" id="c-fr-0006]
    6. Apparatus support (100; 200) according to claim 4, wherein each insulation cover (130; 130, 260) is a cover attached to the interior of the housing (110; 210), which covers said arrangements. (124; 224) to close said compartments.
    [7" id="c-fr-0007]
    7. Apparatus support (100; 200) according to one of claims 1 to
    6, in which there is provided on the bottom wall (116; 216) positioning means (124; 224) of the insulation cover (130; 130, 260).
    [8" id="c-fr-0008]
    8. Apparatus support (100; 200) according to one of claims 1 to
    7, in which there are provided non-electric twinning means (138; 138, 268) intended to cooperate with said apparatus mechanism (20; 30; 40; 50; 60; 70).
    [9" id="c-fr-0009]
    9. Apparatus support (100; 200) according to claim 8, wherein the non-electrical twinning means are carried by each insulation cover (130; 130, 260).
    [10" id="c-fr-0010]
    10. Apparatus support (200) according to one of claims 1 to 9, wherein said bottom wall (216) is arranged to receive eight connection terminals (240) housed in eight compartments, along two lines of four compartments .
    [11" id="c-fr-0011]
    11. Apparatus support (200) according to claim 8, in which there are provided two insulation covers (130, 260) added in said housing (210) and each enclosing four connection terminals (240).
    [12" id="c-fr-0012]
    12. Apparatus support (200) according to one of claims 10 and 11, wherein there is provided at least one keying means (137) adapted to cooperate with said apparatus mechanism (50; 60).
    [13" id="c-fr-0013]
    13. Apparatus support (200) according to claim 12, wherein said polarizing means (137) is carried by only one of the two insulation covers (130).
    [14" id="c-fr-0014]
    14. Apparatus support (200) according to claim 13, wherein said polarizing means (137) is distinct from said individual openings (135) for access to connection terminals (240).
    [15" id="c-fr-0015]
    15. Apparatus support (200) according to one of claims 13 and 14, wherein said polarizing means (137) of the insulation cover (130) is a slot.
    [16" id="c-fr-0016]
    16. Electrical equipment (1) comprising an equipment support
    5 (100; 200) according to one of claims 1 to 15 and an apparatus mechanism (20; 30; 40; 50; 60; 70) fixed in said housing (110; 210) detachably.
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    同族专利:
    公开号 | 公开日
    FR3084781B1|2021-05-14|
    EP3605749B1|2022-01-12|
    EP3605749A1|2020-02-05|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20020185296A1|2000-01-07|2002-12-12|Schultz James Douglas|Prewired electrical apparatus having quick connect components|
    US20120094511A1|2010-10-18|2012-04-19|Sil Greg D|Screwless quick receptacle system and method|
    FR3000305A1|2012-12-20|2014-06-27|Legrand France|EQUIPMENT MODULE AND ELECTRICAL CONNECTOR OF ELECTRICAL EQUIPMENT|
    EP2793337A2|2013-04-19|2014-10-22|Abb Ag|Electronic flush mounted device for building installation technology|
    US20150280410A1|2014-03-26|2015-10-01|Elbex Video Ltd.|Intelligent Support Box for Electric Hybrid Switches, Power Outlets and Combinations Thereof|
    US9793697B1|2015-04-15|2017-10-17|Michael Colao|Junction box and plug-ins|
    DE102011008506B4|2011-01-13|2014-02-13|Abb Ag|Electrical / Electronic Flush-mounted Installation Device of House and Building Systems engineering or home communication technology|
    US20150000972A1|2013-06-26|2015-01-01|Fred Mayer|Modular electrical junction box and method of use|
    CN105655793B|2014-11-11|2020-02-21|先普科技有限公司|Modular jack panel and layer module for modular jack panel|FR3107790A1|2020-03-02|2021-09-03|Laurent POLAIN|RECESSED BOX FOR ELECTRICAL SOCKET|
    FR3110295A1|2020-05-13|2021-11-19|Ali KHIMOUZI|Electrical device connection box, kit and method on the basis of such a box|
    法律状态:
    2019-07-29| PLFP| Fee payment|Year of fee payment: 2 |
    2020-02-07| PLSC| Publication of the preliminary search report|Effective date: 20200207 |
    2020-07-24| PLFP| Fee payment|Year of fee payment: 3 |
    2021-07-06| PLFP| Fee payment|Year of fee payment: 4 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1857165A|FR3084781B1|2018-07-31|2018-07-31|SUPPORT FOR ELECTRICAL EQUIPMENT AND ASSOCIATED ELECTRICAL EQUIPMENT|FR1857165A| FR3084781B1|2018-07-31|2018-07-31|SUPPORT FOR ELECTRICAL EQUIPMENT AND ASSOCIATED ELECTRICAL EQUIPMENT|
    EP19188243.0A| EP3605749B1|2018-07-31|2019-07-25|Support for electrical equipment and associated electrical equipment|
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