RU2772802C2 - Electrical appliance bracket containing sliding plate - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering. The bracket (100) of the electrical appliance comprises a housing (110) equipped with means (130) for sliding movement, made in the opening of the housing (140), and a movable plate (150) entering the said means (130) for sliding movement, having a through opening (120) for fixing the specified bracket of the electrical appliance on the receiving element. The bracket of the electric appliance contains resilient return means (160) acting between the plate and the housing to return said plate to a predetermined rest position.

EFFECT: ensuring ease of mounting the bracket on the receiving element, as well as noiseless manipulation of the bracket.

13 cl, 19 dwg

Description

The field of technology to which the invention belongs

The invention relates to the field of electrical appliances in general, in particular to brackets for electrical appliances.

More specifically, it relates to an electrical appliance bracket, comprising a housing equipped with sliding means and a movable plate entering said sliding means, having a through opening for attaching said electrical appliance bracket to the receiving element.

The invention also relates to an electrical appliance comprising the aforementioned electrical appliance bracket and an electrical appliance mechanism mounted on the electrical appliance bracket.

The invention finds its preferred application when making a multi-station block of electrical appliances using single-station brackets of electrical appliances installed in single-station wiring boxes adjacent to each other.

State of the art

From document EP 0 928 052, in particular, an electrical appliance bracket of the type mentioned above is known. In this electrical appliance bracket, the sliding means move two lamellas opposing each other, but mounting the electrical appliance bracket on the receptacle is cumbersome because it is necessary to simultaneously and individually align the through-hole of each lamina with the corresponding location provided on the receptacle to pass fixing screws.

Also known is another bracket for an electrical device, in which the plates are installed permanently with the possibility of moving by sliding on the housing. In addition to the aforementioned disadvantage, the movable stationary plates produce noise during manipulation of the electrical appliance bracket, which gives the impression of poor quality.

Disclosure of the essence of the invention

In order to overcome the aforementioned shortcomings of the prior art, the present invention provides an electrical appliance bracket that is noiseless in handling and easy to mount on the receiving member.

In particular, the invention proposes a bracket for an electrical appliance, described in the introductory part, in which the body contains a socket in which the specified movable plate is installed, while the said sliding means are made in the socket, ensuring sliding movement of the plate installed inside the socket, and the specified electric bracket. The instrument further comprises resilient return means acting between the plate and the housing to return said plate to a predetermined rest position.

Thus, thanks to the elastic return means, the plate is held in a resting position when the bracket of the electrical appliance is not mounted in the receiving element. While remaining movable, the plate is driven only by voltage, which reduces noise during manipulation of the electrical appliance bracket.

In addition, while remaining movable, the plate has a fixed and predetermined position on the arm of the electrical appliance, since, when the latter is isolated from the receiving element, the elastic return means return the plate to a predetermined rest position on the housing. This facilitates the installation and fastening of the specified bracket of the electrical appliance on the receiving element.

The claimed electrical appliance bracket also has the following other non-restrictive and preferred features, considered separately or in all technically possible combinations:

- these elastic return means are made on the body of the specified bracket of the electrical appliance and rest on the supporting surface of the specified plate;

- said resilient return means are made on said plate and rest on the support surface of said electrical appliance bracket housing;

- since said through opening of the plate has a generally elongated shape in the longitudinal direction for the passage of a fastener intended for fastening said bracket of the electrical appliance to the receiving element, said sliding means provide translational movement of said plate relative to said body in the direction of sliding, generally perpendicular to the specified longitudinal direction;

said housing comprises a frame, the outer circumferential edge of which defines a socket by means of a recess in such a way that said socket opens outwards from the bracket of the electrical appliance;

- in said resting position, part of the rib of said plate, facing outward of the bracket of the electrical appliance, is located basically on the same line with the part of the outer peripheral edge of the said frame, which is located on both sides of the socket;

- in said resting position, part of the rib of said plate, facing outward of the bracket of the electrical appliance, is located generally indented from the part of the outer peripheral edge of the said frame, which is located on both sides of the socket;

- said housing contains a frame having an outer peripheral edge and an inner peripheral edge connected to each other by the back surface, and the socket is made in the recess of the said rear surface at a distance from the said outer and inner peripheral edges so that the socket opens in the rear direction of the electrical appliance bracket ;

additionally, locking means are provided opposite said resilient return means in the sliding direction in order to hold the plate on said electrical appliance bracket body;

the body comprises two in-line sockets in which two plates are slidably movable and elastic return means are provided between each plate and said body to return each plate to a predetermined rest position;

- since the specified through opening of each plate has the shape of a keyhole with a round part for the passage of the head of the fastener, the rest positions of the two plates are defined as the positions in which the centers of the circular parts of the said through openings are separated from each other by a predetermined distance equal to the center distance separating two threaded shafts for installing fasteners in the receiving element;

- the through opening of each plate additionally contains an elongated part, which continues the specified round part and the width of which is less than the diameter of the specified round part, and the major axis of which is shifted from the center of the specified round part by a distance less than or equal to the total slide movement of the plate in its socket.

The subject of the invention is also an electrical appliance, comprising the electrical appliance bracket described above, and the electrical appliance mechanism mounted on said electrical appliance bracket.

Detailed description of the exemplary embodiment

The invention and its implementation will be better understood from the following description with reference to the accompanying drawings, presented as non-limiting examples.

On these attached drawings:

in fig. 1 schematically shows a set in which an electrical appliance according to the invention is mounted in an electrical box by means of two fasteners, the electrical appliance comprising the claimed electrical appliance bracket according to the first embodiment, in side perspective and exploded view;

in fig. 2 schematically shows the bracket of the electrical appliance shown in FIG. 1, separate from the rest of the electrical appliance, perspective view from the front and exploded;

in fig. 3 schematically shows the bracket of the electrical appliance shown in FIG. 2, the various elements of which are interconnected, front view;

in fig. 4 schematically shows part of the electrical appliance bracket shown in FIG. 2, showing the socket of this bracket;

in fig. 5 and 6 schematically show one of the plates of the electrical appliance bracket shown in FIG. 2 are front and rear perspective views, respectively;

in fig. 7 schematically shows one of the bracket plates during installation on the wiring box shown in FIG. 1, while the plate is in a rest position on the specified bracket;

in fig. 8 and 9 schematically show the plate, respectively, during connection and after connection with the body of the bracket shown in FIG. 2, selected side perspective views;

in fig. 10 and 11 show the bracket shown in FIG. 3, respectively during installation and after installation on the wiring box shown in FIG. 1, front views;

in fig. 12 schematically shows a two-gang block, in which two declared brackets are installed in two adjacent one-gang electrical boxes, closed by a single two-gang facing plate (mechanisms of the electrical device are not shown), a perspective view from the front and in analysis;

in fig. 13 and 14 schematically show the two-gang block shown in Fig.9, while the facing plates are not shown, while the brackets are respectively not docked and docked with each other, front views;

in fig. 15 is a schematic side view of a plate connected to the bracket body according to the second embodiment of the invention;

in fig. 16 and 17 schematically show the plate shown in FIG. 12, respectively, in the rest position and in the first mounting position on the specified bracket, front views;

in fig. 18 and 19 schematically show a plate connected to a bracket body according to a third embodiment of the invention, respectively in a rest position and in a first mounting position on said body, viewed from behind.

First of all, it should be noted that identical or similar elements from various embodiments have the same designations, and their repeated description will be omitted.

Implementation of the invention

In FIG. 1 shows a kit containing an electrical appliance 1 according to the first embodiment and a receiving element on which the electrical appliance 1 is mounted and fixed.

In particular, the electric appliance 1 of the set shown in FIG. 1 includes an electrical appliance mechanism 20 and an electrical appliance bracket 100 according to the first embodiment of the invention.

This first embodiment of the electrical appliance bracket 100 will be described in detail with reference to FIGS. 1-14.

The second and third embodiments of the claimed bracket 200; 300 of an electrical appliance are shown schematically in FIGS. 15-17 and 18-19. These second and third embodiments of the electrical appliance bracket 200, 300 are structural versions of the first embodiment of the electrical appliance bracket 100. In the following, only their differences from the first embodiment will be presented.

In the following description, for simplicity, the electrical appliance bracket 100 will be referred to as the bracket 100.

In general, the mechanism 20 of the electric appliance is designed to be mounted on a bracket 100 which is designed to be mounted and fixed in the receiving element by means of two fasteners.

In this case, the electrical appliance mechanism 20 is an electrical outlet mechanism. Alternatively, the bracket 100 can, of course, accommodate other mechanisms of the electrical appliance, such as, for example, a switch mechanism, a USB connector, a telephone connector, a TV connector, or an Ethernet connector.

This electrical appliance mechanism 20 mainly comprises a base 25 of an insulating material in which the electrical components of the electrical appliance mechanism 20 are located, and a finishing member 22 imparting an electrical function to the mechanism. In this case, the finishing element 22 contains a receptacle for an electrical plug. In a variant, the finishing element may comprise one or more switch buttons or a receiving socket, for example, for a telephone or USB connector.

In this case, the receiving element is an electrical box 10. This electrical box 10 is an inner box installed in the mounting hole of a hollow wall. In a variant, the wiring box may be a box embedded in a brick wall or fixed to the wall from the outside.

As shown in FIG. 1 and 12, this wiring box 10 comprises a side wall 15 which is closed at the rear by a bottom wall 19 and which delimits from the front a receiving opening for the mechanism 20 of the electrical appliance. Inside, on the inner side 15A of the side wall 15 of the wiring box 10, two threaded shafts 11 are provided, into each of which a fastening screw 500 is screwed, forming one of the fasteners.

In this case, the wiring box 10 has a cylindrical shape, but it may have a different shape, such as a parallelepiped shape.

As shown in FIG. 1 and 12, the wiring box 10 has in its side wall 15 and in its bottom wall 19 openings 15B for the passage of the wiring box (into which you can insert electrical wires, optical fibers, ...), which are initially closed with extruded plugs.

This wiring box 10 is designed to be installed in a wall so that its front opening is flush with the front surface of the wall and that the fixing pins 505 of the two fixing screws 500 are in the same horizontal plane.

In the text of the description, the terms "front" and "rear" will be used in relation to the direction of the user's gaze facing the electrical appliance installed in the wall. Thus, the front side of an element will denote the side of that element facing the user, while the back side will denote the opposite side.

As shown in FIG. 1, bracket 100 includes a body 110 of insulating material forming a frame 112 extended rearwards by four sheer walls 114.

In this case, the body 110 of the bracket 100 is molded from a plastic material.

In particular, as shown in FIG. 1, frame 112 of body 110 is generally flat. In this case, it has a square shape with four crossbars. It comprises a front surface 112A and a rear surface 112B connected to each other by an outer rib 112C and an inner rib 112D. The outer and inner ribs 112C, 112D define, respectively, the outer peripheral edge 113 and the inner peripheral edge 111 of the frame 112 of the housing 110.

The frame 112 of the housing 110 is generally located in the middle plane.

The inner peripheral edge 111 of the frame 112 defines the reception 115 for one or more of the aforementioned mechanisms 20 of the electrical appliance. The receiving opening 115 is generally enclosed in the middle plane in which the frame 112 is located.

In this case, the receiving opening 115 may receive one "two-width" plinth of the electrical appliance mechanism or two "single-width" plinths of the electrical appliance mechanism. In the example shown in FIG. 1, a receiving opening 115 is provided for a "two module width" plinth 25 of one electrical appliance mechanism 20.

In this case, like the frame 112, this receiving opening 115 has a square shape and allows the passage of the base 25 of the mechanism 20 of the electrical appliance.

As shown in FIG. 1, four sheer walls 114 of body 110 extend from rear surface 112B of frame 112 and frame reception opening 115. Their inner sides facing reception opening 115 extend an inner peripheral edge 111 of frame 112. These sheer walls 114 are arranged substantially perpendicular to the median plane. frames 112.

In particular, these sheer walls 114 define the receiving seat of the bracket 100, which is configured to accommodate the plinth 25 of the mechanism 20 of the electrical appliance. The plinth 25 and the receptacle of the bracket 100 have a complementary shape, in this case mainly in the form of a parallelepiped, so that when the plinth 25 of the mechanism 20 of the electrical appliance is seated in this receptacle, the finishing element 22 of the mechanism 20 of the electrical appliance closes the receptacle 115 of the bracket 100.

For mounting the plinth 25 of the electrical appliance mechanism 20 on the bracket 100, the bracket 100 includes mounting means configured to interact with mating mounting means provided on the plinth 25 of the electrical appliance mechanism 20.

Mounting means are provided near the inner peripheral edge 111 of the frame 112 delimiting said receiving opening 115. In this case, the mounting means are provided in particular in two opposite sheer walls 114. These mounting means are clip-on means.

As shown in FIG. 1, the two opposite sheer walls 114, on which the mounting means are located, have voids, and the free edge of these two opposite sheer walls 114 contains snap-in recesses 116, the ribs of which form mounting flanges with which snap-in teeth 26, made in the form of protrusions on the two opposite sides of the base 25.

Moreover, as shown more clearly in FIG. 3 and 12, on the frame 112 of the body 110 of the bracket 100, means 117 are provided for connecting the facing plate 30 (FIG. 12). These connection means 117 are accessible from the front surface 112A of said frame 112. In this case, they contain snap-in means, in particular a plurality of slots, each of which is equipped with a fastening tooth configured to engage with mating fasteners provided on the rear side of the facing plate. thirty.

As shown in FIG. 1 and 12, the bracket 100 is installed and fixed on the wiring box 10 by means of two fixing screws 500 going into the threaded shafts 11, made diametrically opposite on the inner side 15A of the side wall 15 of the wiring box 10.

For this, as shown in particular in FIG. 3, 10, 11 and 12, the bracket 100 has at least two diametrically opposed through openings 120 on either side of the receiving opening 115 for the passage of the mounting screws 500.

In this case, four through openings 120 are provided, each of which is located in the center of one of the four crossbeams of the frame 112 of the bracket 100.

In particular, as shown in FIG. 3, 7 and 10, each through opening 120 has in this case a generally elongated shape and extends in the longitudinal direction L. In this case, for each through opening 120, the longitudinal direction L is parallel to the crossbeam of the frame 112 in which said through opening 120 is located.

As shown in particular in FIG. 3, 7, 10 and 11, each through opening 120 in this case has the shape of a keyhole, that is, it has a main elongated part 122, at the end of which a round part 121 is formed.

In particular, each circular portion 121 allows passage of the screw head 501 (FIG. 10), and the elongate portion forms an elongated hole extending said circular portion 121. The width of the elongated hole 122 is smaller than the diameter of the circular portion 121 to allow passage of only the screw shaft 502 (FIG. 7 and 11).

In this case, as shown in FIG. 3, 7, 10, and 11, the elongated opening 122 is defined by a platform 123 offset from the front surface 122 of the frame 112 of the body 110 of the bracket 100 so that the screw head 501 (FIG. 11) can rest on it. Thus, when the bracket 100 is attached to the wiring box 10 by tightening the fixing screw 500, the front side of said screw head 501 is flush with the front surface 112A of the frame 112 of the bracket 100 (FIG. 11).

As shown in FIG. 3 and 7, the elongated opening 122 of the through opening 120 extends along a major curved axis E, the concavity of which faces the receiving opening 115 of the bracket 100. Due to the curvature of the major axis E of the elongated opening 122, the bracket 100 can be rotated in an angular direction by simultaneously sliding each rod. 502 screws in the corresponding elongated hole 122, which allows you to correct the angular position of the specified bracket 100 during its attachment to the wiring box 10.

As shown in particular in FIG. 1 and 2, each through opening 120 of the bracket 100 is formed in a plate 150 connected to the body 110 of the bracket 100. Thus, in this example, the bracket 100 includes at least two plates 150 mounted on the body 110 opposite each other relative to the receiving opening 115.

As shown in FIG. 1-3 and 10-12, in this case, the bracket 100 includes four plates 150 arranged in pairs opposite each other on the body 110. Thus, the installation of the bracket 100 on the wiring box 10 can be done with different positions of the electrical appliance mechanism 20. In this case, the mounting of the bracket 100 on the wiring box 10 does not predetermine the orientation of the electrical outlet relative to the vertical or horizontal of the wall on which it is installed.

The plates 150 form separate parts from the body 110 of the bracket 100, so that the body 110 of the bracket 100 and the plates 150 can be made from different materials.

In this case, each plate 150 is molded from a rigid polymeric material such as, for example, fiberglass-filled polymeric material or ABS (acrylonitrile butadiene styrene), while the body 110 of bracket 100 is molded from a cheaper insulating polymeric material. Alternatively, the plates may be made of metal. It is also possible to provide for molding the plates 150 from a polymer material of the first color and the body of the bracket from a polymer material of the second color.

As shown in particular in FIG. 1, 2, 5, and 6, in this example, each plate 150 has a generally flattened parallelepiped shape elongated in the longitudinal direction L of the through opening 120. Specifically, as shown in FIG. 1, 5, and 6, each lamina 150 has two main opposite sides, namely a front side 150A and a back side 150B, interconnected by four side edges 150C, 153, 154, forming a rib of lamina 150. The inner edge 154 of the rib of lamina 150 must be faces the receiving reception 115 of the bracket 100, while the outer edge 153 of the rib of the plate 150, opposite to the specified inner edge 154, should be facing out of the bracket 100. the opening 120 of each plate 150 passes through the specified plate 150 and exits simultaneously on the front side 150A and on the back side 150B of the specified plate 150.

To install the plates 150, the bracket 100 is equipped with means for connecting the body 110 of the bracket 100 and the plate 150.

In particular, as shown in FIG. 2, 8 and 9, the connecting means comprise complementary sliding means between the body 110 and the plate 150. These complementary sliding means include, in particular, the sliding means 130 belonging to the body 110 of the arm 100, as well as the mating sliding means. belonging to each plate 150. Of course, the slide means 130 of the body 110 of the bracket 100 are configured to interact with the mating slide means of each plate 150.

As shown in FIG. 2, 4, 8 and 9, according to the invention, the body 110 of the bracket 100 includes a socket 140 for receiving each plate 150, while said sliding means 130 are at least partially made in each socket 140, and the bracket 100 additionally contains elastic return means 160 acting between each plate 150 and said body 110 of bracket 100 to return each plate 150 to a predetermined rest position.

In particular, as shown in FIG. 1 and 2, the housing 110 in this case contains four sockets 140, each of which is configured to receive one of the plates 150.

As shown in FIG. 1, 2 and 4, each socket 140 includes a through part extending, on the one hand, on the front surface 112A of the specified frame 112 and, on the other hand, on the rear surface 112B of this frame 112. This through part at least partially coincides with the through the opening 120 of the plate 150 installed in the specified slot 140 to ensure the passage of each fastening screw 500 in the wiring box 10.

In the first embodiment shown in FIG. 1-14, in particular, as shown in FIG. 1, 2, 4, 8 and 9, each seat 140 is almost completely open in the X direction, essentially perpendicular to the front surface 112A of the frame 112 of the housing 110 and to the median plane in which the frame 112 is located. In other words, in the median plane, in which the frame 112 is located, the area of the nest 140 is mainly occupied by the through part of this nest 140.

Each socket 140 is made in the form of a recess in the specified housing 110 and, in particular, in the form of a recess in the frame 112 of the housing 110.

In particular, as shown in FIG. 2, in a first embodiment of the bracket 100, each socket 140 is formed by a recess in the frame 112, said recess being defined by an outer peripheral edge 113 of said frame 112. Thus, each socket 140 is open to the outside of the bracket 100 and forms in this case a cutout in the corresponding crossbar of the frame. 112.

As shown in FIG. 2 and 4, in each crossbar, the outer peripheral edge 113 of the frame 112 of the body 110 comprises a first section 113A, starting from which a recess is made, a second section 113B, which is offset from said first section at a distance and generally parallel to said first section 113A, and two other sections 113C which connect generally perpendicularly said first and second sections 113A, 113B.

Thus, as shown in FIG. 4, each slot 140 is generally rectangular in shape and has three closed sides and a fourth open side. In particular, the socket 140 has, on the one hand, two opposite and parallel side edges 140B formed by said other sections 113C of the outer peripheral edge 113, and, on the other hand, a bottom 140A connecting said side edges 140B, this socket 140A being formed by the second section 113B of the outer peripheral edge 113. The entrance of the socket 140 is limited between the specified opposite side edges 140B opposite the specified bottom 140A, that is, between the first two sections 113A of the outer peripheral edge 113. Making the socket 140 open on its fourth side out of the bracket 100 facilitates the installation of the plate 150 in nest 140.

As shown in FIG. 2, 3, and 7, each socket 140 has a shape substantially corresponding to the shape of each plate 150, except that the opposite side edges 140B of said socket 140 extend at a greater distance than the end edges 150C of the plate 150, forming a "width W » plates 150.

Sliding means 130 provided on the body 110 of the bracket 100 in each seat 140 are configured to receive a sliding plate 150 therein. 100, and after connecting the plate 150 to the body 100, the sliding means 130 still allow said plate 150 to slide within the seat 140.

As shown in FIG. 2 and 4, sliding means 130 of housing 110 are provided on opposite side edges 140B of each slot 140. They are located within slot 140 along each side edge 140B of slot 140.

In this case, as shown in FIG. 2, 4, 8, and 9, the sliding means 130 in each slot 140 comprise two guide sliders 131 that protrude forward from a small width support pad 191 (clearly visible in FIG. 4) along each opposite side edge 140B of slot 140 near back surface 112V frame 112.

In this case, as shown in FIG. 4, the free end of each guide slider 131 is shaped like a quarter cylinder. Due to the special shape of the free end of each guide slider 131, the sliding means 130 provide the effect of connecting the plate 150 to the body 110. In other words, the sliding means 130 make it possible to hold the plate 150 on the body 110 in the X direction.

As shown in FIG. 2, 5, and 6, each plate 150 is provided along its two end edges 150C with a yoke 132 configured to engage with said guide slides 131 of the socket 140. Each yoke 132 extends near each end edge 150C of the plate 150 parallel to that end edge 150C. In this case, each link 132 is made in the form of a depression in the back side 150B of the specified plate 150. It goes simultaneously to the back side 150B, to the inner edge 154 (which faces the bottom 140A of the socket 140) and to the outer edge 153 of the rib of the specified plate 150.

Thus, said sliding means 130 provide relative translation of said plate 150 relative to frame 112 of bracket 100 in a sliding direction Y1, Y2 generally perpendicular to the longitudinal direction L of the through opening 120 of plate 150 (FIG. 2). This arrangement provides an additional degree of freedom when placing the bracket 100 on the wiring box 10.

As shown in FIG. 2, 4, 8 and 9, in the first embodiment of the bracket 100, the elastic return means 160 are made on the body 110 of the bracket 100 and rest on the support surface 155 of said plate 150 (the support surface 155 is clearly visible in Figs. 6, 8 and 9).

In particular, elastic return means 160 are located in this case near or inside each seat 140.

In this case, the resilient return means 160 are integral with the body 110 of the bracket 100. They are molded from a plastic material, like the body 110. Their "return action" property is provided by the material used for their manufacture, their shape, their thickness and their rigidity. .

In particular, as shown in FIG. 4, 8 and 9, in this case, the resilient return means 160 comprise two flat springs 161 configured to act on each plate 150. Each flat spring 161 is cut into a post 118 extending along a respective sheer wall 114 of the body 110 of the bracket 100. Uprights 118 are clearly visible in Fig. 1 and extend each in the X direction outside of each sheer wall 114.

As shown in FIG. 4, 8, and 9, each leaf spring 161 generally extends in the X direction behind the rear surface 112B of frame 112 in an area generally opposite each guide slider 131 provided in a seat 140. Each leaf spring 161 includes a leg 162 cut into the post. 118, and ending at the front with a free end forming a heel 163 configured to rest on the support surface 155 of the plate 150. The rear end of the leg 162 is located near the free edge of the post 118, in which the flat spring 161 is cut.

Thus, each leaf spring 161 can be deformed in the transverse sliding direction Y1, Y2 corresponding to the seat 140 in which its cooperating plate 150 is installed.

To prevent inadvertent separation of the plate 150 and the body 110 despite the action of the leaf springs 161, the connection means of the bracket 100 in this case further comprise complementary locking means 170 between the body 110 of the bracket 100 and the plate 150. The locking means 170 are located between the body 110 of the bracket 100 and the plate 150 and prevent said record 150 from leaving the slot 140.

In particular, as shown in FIG. 3, 7, 8, and 9, the locking means 170 include outer locking means of the housing 110 configured to cooperate with the mating locking means of the plate 150.

In particular, as shown in FIG. 3, 4, 7, 8 and 9, in this case, the external locking means of the housing 110 comprise a flexible tab 171 cut into each of the opposite side edges 140B of each slot 140 on both sides of the entrance to each slot 140. Each flexible tab 171 protrudes slightly inside the socket 140 in the front area of the bracket 100.

As shown in FIG. 3, 5, 6, 7, 8, and 9, the mating locking means of each plate 150 comprise a recess 172 formed in each end edge 150C of the rib of said plate 150. Each recess 172 extends only in the front and outer region of this end edge 150C, with one side, on the front side 150A of the specified plate 150 and, on the other hand, on the outer edge 153 of the specified plate 150.

As shown in FIG. 8 and 9, to insert a record 150 into its seat 140, it is sufficient to align each slider 131 of the seat 140 with the corresponding link 132 of the record 150, starting from the entrance of the seat 140, and push the record 150 towards the bottom 140A of the seat 140. In this case, two flexible tabs 171, located at the entrance of the socket 140 against each other, are pushed by the end edges 150C of the specified plate 150 towards the side edge 140B of the socket 140, from which each of these flexible tabs extends. After the record 150 has sufficiently entered the socket 140, each tab 171 returns to its original position and enters the recess 172 of the record 150 provided for this, usually with a "click" that indicates to the user that the record 150 is correctly connected to the body. 110.

As shown in FIG. 7, the plate 150 is locked on the body 110 by the free end 171A of the flexible tab 171 of the body 110 (FIG. 4) which rests against the bottom 172A of the recess 172 of each plate 150 (FIGS. 5 and 6). After the plate 150 is connected to the body 110 of the bracket 100, its front side 150A is flush with the front surface 112A of the frame 112.

When the plate 150 is connected to the body 110, the width of the seat 140, which is greater than the width W of the plate 150, and said sliding means 130 cause said plate 150 to be translated in a Y1, Y2 direction transverse to the corresponding crossbar of the body 110. In this case, under the "transverse direction » should be understood as the direction that runs between the outer peripheral edge 113 of the frame 112 and the receiving opening 115 is generally perpendicular to the part of the inner peripheral edge 111 that is closer to the socket 140.

In other words, each plate 150 connected to the body 110 of the bracket 100 can be moved in the transverse sliding direction Y1, Y2 characteristic of each socket 140 (FIG. 2) between the bottom 140A of the socket 140 and the first section 113A of the outer peripheral edge 113 of the frame 112. This lateral sliding direction Y1, Y2 extends substantially perpendicular to the crossbar of the frame 112 in which the respective seat 140 is provided, and therefore perpendicular to the first and second portions 113A, 113B of the respective outer circumferential edge 113.

As shown in FIG. 9, when the plate 150 is installed in the seat 140 of the bracket 100 in the rest position in this seat 140, the heel 163 of each leaf spring 161 of this seat 140 comes into contact with the corresponding bearing surface 155 of the plate 150, and the leaf spring 161 itself is in the rest position.

In this case, as shown in FIG. 3 and 7, when the plate 150 is in the rest position, the outer edge 153 of said plate 150, facing outward of the bracket 100, continues the outer peripheral edge 113 of said frame 112 at the mouth of the socket 140. In other words, in the rest position on the body 110, the outer edge 153 of the plate 150 extends a portion of the outer peripheral edge 113 of the frame 112 located on both sides of the socket 140. In other words, according to the embodiment shown in FIG. 1-14, in the rest position, the plate 150 is in the extreme position and is pushed outward to the maximum extent of the bracket 100 such that the outer edge 153 of the plate 150 is generally aligned with the first section 113A of the peripheral edge 153 of the corresponding crossbar of the frame 112 of the bracket 100. In this In this case, the outer edge 153 of the plate 150 extends the first section 113A of the outer peripheral edge 113 of the frame 112. Thus, in the rest position, the outer edge 153 of the plate 150 is in the same plane as the first section 113A of the peripheral edge 113 of the corresponding crossbar of the frame 112, in a straight line .

In this rest position, the free end 171A of the flexible leg 171 of the locking means 170 rests against the bottom 172A of the recess 172 of the plate 150.

When the plate is in the rest position, there is a gap J (FIG. 7) of the order of several millimeters, for example equal to 2 millimeters, between the inner edge 154 of the specified plate 150, opposite the specified outer edge 153 of the plate 150, and the bottom 140A of the socket 140. This gap J corresponds to the total course of possible sliding movement of the plate 150 in its seat 140 in the direction Y1, Y2 of sliding movement associated with the seat 140.

From its rest position, the plate 150 can be moved inside the bracket 100, i.e. towards the bottom 140A of the socket 140, to a maximum of the inner extreme position, in which the inner edge 154 of the plate 150 comes into contact with said bottom 140A of the socket 140. During this movement of the plate 150, the bearing surfaces 155 of the plate 150 press against the heel 163 of each leaf spring 161, which causes each leaf spring 161 to leave its rest position. In doing so, the leaf springs 161 tend to return to their equilibrium position and act through their heel 163 with a pushing force against the plate 150 to return it to its resting position.

Preferably, the complementary locking means 170 of the body 110 of the bracket 100 and the plate 150 together form a positioning limiter for the plate 150 being pushed into the rest position so that the plate 150 cannot protrude beyond the body 110 of the bracket 100 beyond this stop.

Thus, when the bracket 100 is isolated from the wiring box 10, the plates 150 of the bracket 100 are held in a resting position.

As shown in FIG. 3 and 10, two plates 150, opposite each other and at rest in their respective seat 140, are arranged so that the centers C of the circular portions 121 of their through openings 120 are separated from each other by a predetermined distance equal to the center distance D, separating two threaded shaft 11 of screws 500 fastening in the electrical box 10 (Fig. 1, 10 and 12). In this case, the center distance D is 60 mm.

Thus, thanks to the invention, the mounting of the bracket 100 on the wiring box 10 is facilitated, since the plates 150, held in their respective resting position when the bracket 100 is isolated from the wiring box 10, are automatically moved apart from each other by a gap equal to the gap separating the mounting axes. 505 fixing screws 500 already installed on wiring box 10.

As shown in FIG. 10 and 11, in order to mount the bracket 100 on the wiring box 10, the user rotates said bracket 100 slightly so as to position the round portions 121 of the two plates 150 against the fixing screws 500 pre-threaded on the wiring box 10 (FIG. 10). After the head 501 of the screw of each mounting screw 500 has entered the circular portion 121 of the corresponding through hole 120 of the bracket 100, the user rotates the bracket 100 by sliding the screw shaft 502 of each mounting screw 500 in the corresponding elongated hole 122 (FIG. 11). This rotation is intended to align the bracket 100 until the two opposite beams of the frame 112 are substantially parallel to a straight line passing through the centers of the heads of the mounting screws 500.

Preferably, as shown in FIG. 7, the center C of the circular portion 121 of each plate 150 is in this case offset from the major axis E of the elongated hole 122 of said plate 150 by a distance less than or equal to the gap J, that is, less than the total sliding stroke of said plate 150 in its seat 140. In particular, , the center C of each circular portion 121 is in this case offset from the major axis E by a distance equal to half of the gap J, that is, by 1 millimeter in this example.

Given the offset between the circular portion 121 and the major axis E of the elongated hole 122, when the bracket 100 is rotated on the wiring box 10, each plate 150 is forced into a first mounting position in its socket 140 (FIG. 11). The first mounting position of the plate 150 in its seat 140 is here defined as the intermediate position of the plate 150 between the outer end position and the inner end position. In the first mounting position on the body 110 of the bracket 100, the major axes E of the elongated holes 122 of the through openings 120 of the two opposite plates 150 are spaced (diametrically) from each other by a center distance D, equal in this example to 60 millimeters.

As shown in FIG. 5 and 7, the platform 123 defining the elongated hole 122 has in this case a ledge 123A at the connection with the circular part 121, which facilitates the direction of the screw shaft 502 from the circular part 121 into the elongated hole 122.

When the plate 150 is in the first mounting position (Fig. 11), there is a first gap J1 between the outer edge 153 of the specified plate 150 and the outer peripheral edge 113 of the specified frame 112, which is located on both sides of the socket 140, and the second gap J2 between the inner edge 154 of said plate 150 and bottom 140A of seat 140. In this case, the first mounting position is the center position of plate 150 in its seat 140, with the first gap J1 equal to the second gap J2, in this case 1 millimeter. As long as the mounting screw 500 is not tightened in the wiring box 10, the installer can move, in this case in the transverse sliding direction Y1, on both sides of the sliding movement, the body 110 of the bracket 100 relative to the plates 150 in which the mounting screws 500 are installed. As shown in FIG. 11, the body 110 of the bracket 100 can be moved to the right or left by 1 millimeter from the first mounting position, which in this case is the center.

To secure the bracket 100 to the wiring box 10, each mounting screw 500 is then tightened to the maximum in the corresponding threaded shaft 11 of the wiring box 10.

Through this screwing operation, the plate 150 is pressed against the bracket 100, which, in turn, is pressed against the front side of the mounting wall by the tightening effect.

For this, as shown in Fig. 2, bracket 100 includes complementary support means 190 between said body 110 and said plate 150. In particular, as shown in FIG. 4 and 6, the complementary support means 190 comprise a support pad 191 of the body 110 and mating support means 192 of the plate 150. The support platform 191 is formed in the socket 140 and extends from the rear surface 112B of the frame 112 along the opposite side edges 140B and from the bottom 140A of the socket 140 into the specified sockets 140 (FIG. 4). The support pad 191 is located outside the sliding area, in particular along opposite side edges 140B where it extends between said side edges 140B and the sliding means 130. The support pad 191 has a limited width in order to leave the through portion of the socket 140 as large as possible. Reciprocal support means 192 of the plate 150 are formed by the rear surface of the plate 150, which is offset relative to the rear side 150B of the specified plate 150 and runs along the end edges 150C and the inner edge 154 of the specified plate 150 (Fig. 6). Thus, when the plate 150 is connected to the bracket body 100, the mating support means 192 at least partially rests on the support pad 191 of the body 110, and the through-hole 120 of the plate 150 is completely outside and at a distance from the support pad 191. When the mounting screw 500 is screwed into the threaded shaft 11, the reciprocal support means 192 of the plate 150 rest on the support platform 191 of the socket 140 (Fig. 9) and force the rear surface 112B of the frame 112 of the body 110 of the bracket 100 to press against the wall in which the wiring box 10 is embedded.

In addition, as shown in particular in FIG. 13 and 14, bracket 100 includes, on each of the rungs of its frame 112, means 180 for docking with another bracket 100' of the same type.

Preferably, the mating means 180 connect said bracket 100 (first bracket 100) to another bracket 100' (second bracket 100') of the same type to form one multi-gang bracket. The overall dimensions of the first and second brackets 100 and 100', docked using docking means 180, 180' (Fig. 14), are equal to the dimensions of the multi-gang bracket made in the form of a single block.

This docking is facilitated by two plates 150 mounted with the possibility of sliding on the body 110 of one of the two brackets 100, 100' against each other relative to the receiving opening 115.

As shown in FIG. 13, preferably the docking means 180, 180' comprise, on each rung of the frame 112, 112', along the outer circumferential edge 113, 113' outside the recess, a male element and a female element. These docking means 180, 180' are integral with the body 110, 110' of the bracket 100, 100'.

In particular, the docking means 180, 180' of each crossbar of the frame 112 comprise a protrusion 181, 181' and a recess 182, 182' having complementary contours delimited by the outer peripheral edge 113, 113' of the frame 112, 112'. The protrusion 181, 181' protrudes from the frame 112, 112' (male), while the recess 182, 182' is made towards the inside of the frame 112, 112' (female). The protrusion 181, 181' and the notch 182, 182' are located on both sides of the socket entrance 140, 140'.

As shown in FIG. 13 and 14, the protrusion 181 located on the side of the socket 140 of the first bracket 100 is designed to engage with the recess 182' respectively provided on the outer peripheral edge 113' of the frame 112' of the adjacent second bracket 100', while the recess 182 located on the other side the socket 140 of the first bracket 100 is designed to receive the protrusion 181' of the adjacent second bracket 100'.

The mating means 180, 180' are identical on all sides of the frame 112, 112' so that the first and second brackets 100, 100' can be connected to each other in all directions and combined with one or more other adjacent brackets of the same type. Even if the first arm 100 is rotated relative to the second arm 100', the mating means 180 of the rotated first arm 100 remain properly positioned relative to the mating means 180' of the second arm 100' which has not been moved to engage with the arm.

In practice, to join the first and second brackets 100, 100' together, the user performs the following steps: he installs and fastens the first bracket 100 on the first wiring box 10, as described above, then he installs the second bracket 100' on the second wiring box 10' adjacent to the first box (Fig. 13).

As shown in FIG. 13, after this operation, all the plates 150, 150' of the first and second brackets 100, 100' with the fixing screws 500, 500' installed in them are in the first mounting position. In addition, the first bracket 100 is fully fixed to the first wiring box 10, while only the plates 150' of the second bracket 100' held by the fixing screws 500' are fixed to the second wiring box 10'. Relative movement of the plates 150' and the body 110' of the second bracket 100' in the transverse sliding direction Y1' is still possible, since the second bracket 100' is only installed, but not fixed, on the second wiring box 10'.

If the first and second wiring boxes 10, 10' are embedded in the wall in such a way that the first and second brackets 100, 100' cannot be joined directly because they are too far apart (FIG. 13), it is still possible to slot means 180 for docking the first bracket 100 with the docking means 180' for the second bracket 100' by bringing the body 110' of the second bracket 100' closer to the body 110 of the first bracket 100 in the transverse sliding direction Y1' (FIG. 14). After this convergence, which allows to compensate for a slight displacement between the wiring boxes 10, 10', the relative positions of each plate 150' of the second bracket 100' with the fixing screws 500' installed in them and the body 110' of the second bracket 100' change.

In FIG. 14 it can be seen that the plates 150' occupy respectively a rest position and a second mounting position, in which the inner edge 154' of the plate 150' comes into contact with the bottom 140A' of the respective socket 140'. In other words, one of the plates 150' occupies the outer end position (rest position), while the other plate 150' occupies the inner end position (second mounting position). In the second mounting position, there is a gap J' between the outer edge 153' of the plate 150' and the portion of the outer peripheral edge 113' located on both sides of the socket 140'.

After joining the first and second brackets 100, 100', by approaching the body 110' of the second bracket 100' and the body of the first bracket 100, the fixing screws 500' can be screwed to the maximum into the second wiring box 10'. On the first and second brackets 100, 100' joined in this way, a two-gang cladding plate 30, suitably designed, can be installed to close the two-gang bracket (Fig. 12).

During removal of the bracket 100 from the wiring box 10, the two fixing screws 500 are loosened and the leaf springs 161 push the plates 150 out of the bracket 100 towards their respective rest position. The shape and "indented" arrangement of the platform 123 defining the elongated hole 122, in combination with the pushing force from the leaf springs 161, facilitates the reverse angular rotation of the bracket 100 to move the screw heads 501 into position against the circular parts 121. Therefore, the invention further facilitates removal and removal of bracket 100.

The bracket according to the invention is by no means limited to the embodiment described above, and various versions thereof can be envisaged and combined.

In particular, the resting position of the plate on the body can be defined as the position in which the portion of the rib of said plate facing outward of the bracket of the electrical appliance (in this case, the outer edge of the rib of the plate) is substantially offset from the first part of the outer peripheral edge of said frame, which located on both sides of the nest.

In particular, the rest position of the plate on the housing can be defined as the position in which the inner edge of said plate is located against the bottom of the socket formed by the second section of the outer peripheral edge of the frame. In other words, the resting position of the plate can be defined as the innermost position of the plate in its socket. In this case, the center of each circular part of the through opening is displaced outward from the major axis of the elongated hole by a distance equal to half of the total sliding travel (rather than inward, as mentioned above for the first embodiment of the bracket).

It can also be provided that the rest position of the plate on the bracket body is an intermediate position of the plate in its seat between the inner and outer extreme positions, as indicated above. In particular, the resting position may correspond to the central position of the plate in its socket. In the case where the rest position of the plate is intermediate, the resilient return means are formed by a bistable leaf spring that returns the plate to its rest position when it slides in the seat in or out of the bracket. In this case, the major axis of the elongated hole of the through opening of the plate passes through the center of the through part.

In FIG. 15-17 show an electrical appliance bracket 200 according to a second embodiment of the invention. Like the bracket 100 of the first embodiment, the bracket 200 includes a movable plate 250 mounted in the socket 240 of the body 210 of the bracket 200. This bracket 200 is very similar to the bracket described in the first embodiment, except that the elastic return means 260, acting between the plate 250 and the body 210, in this case, are made on the plate 250 and rest on the supporting surface 255 of the body 210 of the specified bracket 200.

These resilient return means 260 are integral with said plate 250. Therefore, like plate 250, they are molded from a plastic material. Their property of "return action" is provided by the material used for their manufacture, their shape, their thickness and their rigidity.

In particular, as shown in FIG. 15 and 16, at the entrance of the socket 240 and near the front surface 212A of the frame 212 of the body 210, two opposite side edges 240B of the socket 240 have a ledge 240C forming the bearing surface 255 of the body 110. edges 250C of the plate 250 and forming an elastic return means 260. In this case, this flexible tab 261 is located on the front section of the plate 250 and extends towards the bottom 240A of the socket 240 and towards the receiving opening 215 of the bracket 200.

As shown in FIG. 15 and 16, plate 250 rests on body 210 of bracket 200, and free end 261A of each flexible tab 261 rests on support surface 255.

As shown in FIG. 17, when the lamina 250 is slid in its seat 240 from its rest position, for example, to the first mounting position, the free end 261A of each flexible tab 261 presses against the corresponding support surface 255 of the housing 210, which causes each flexible tab 261 to arch and move away from the end edges 250C of the plate 250 from which it is made. At the inner end position (not shown), the inner edge 261B of the flexible leg 261 comes in a resting position 255 of the body 210 of the bracket 200. Once the flexible legs 261 are outside their rest position, they tend to return to their rest position by exerting a pushing action. on the support surfaces 255. In doing so, they return the plate 250 to its resting position.

The bracket 200 is otherwise identical to the bracket 100 according to the first embodiment, except that in this second embodiment there are no locking means to prevent the plate 250 from being accidentally separated from the body 210 of the bracket 200.

In FIG. 18 and 19 show the socket 340 of the housing 310 of the electrical appliance bracket 300 according to the third embodiment of the invention. Like the bracket 100 according to the first embodiment, the bracket 300 includes a movable plate 350 mounted in a socket 340. This bracket 300 is very similar to the bracket described in the first embodiment, except that the socket 340 is not formed by a recess in the outer peripheral edge of the bracket. 300, but with a recess provided inside the frame 312 of the bracket 300 at a distance from the outer and inner peripheral edges of the body 310 and open towards the rear direction of the bracket 300.

In particular, according to this third embodiment, in the rear surface 312B of the frame 312 of the housing 310, there are four sockets 340 in the form of a recess on each crossbar of the frame 312 between said outer peripheral edge and the inner peripheral edge of the frame, forming a receiving opening for the electrical appliance mechanism.

Each receptacle 340 for accommodating records 350 is formed as a recess in the rear surface 312B of frame 312 of housing 310 of bracket 300. Each receptacle 340 is closed by four sides forming the side edges of receptacle 340, namely, two opposite side edges 340B perpendicular to the inner and outer peripheral the edges of the respective frame rail 312, and two opposite side edges 340A, 340C parallel to said inner and outer peripheral edges of that frame rail 312 of the body 310. The entrance to the seat 340 is defined between these four side edges 340A, 340B, 340C at the level of the rear surface 312B of the frame 312. The nest 340 is partially closed by the bottom 340D opposite the entrance (and not almost completely, as in the first and second embodiments). The side edge 340C closest to said outer peripheral edge will hereinafter be referred to as the "outer side edge 340C" of the socket 340, while the side edge 340A closest to the said inner peripheral edge will be referred to hereinafter as the "inner side edge 340A" of the socket.

Sliding means 330 are provided on both sides of the socket 340 in the form of two guide tabs 331. Each guide tab 331 is provided on one and opposite side edges 340B of the socket 340. These guide tabs 331, together with the bottom 340D of the socket 340, form a backstage for the record 350 and allow hold plate 350 stationary on bracket 300.

In this case, the elastic return means 360 are on the body 310 of the bracket 300 and are made of plastic materials. They are formed in each seat 340 by two flexible tabs 361 extending in a “V” from one of the outer or inner side edges 340C, 340A of the nest 340. In this case, the flexible tabs 361 are provided on the inner side edge 340A of the nest 340.

In this case, the plate 350 is made of a metallic material and has a relatively small thickness. It contains a through opening 320 similar to the through opening of the plate 150 in the first embodiment. The plate 350 is firmly seated or irreversibly latched into the socket 340 and then held between the guide tabs 331 and the bottom 340D.

After being connected to the housing 310, the plate 350 can slide in a sliding direction transverse to the housing 310, passing between the inner and outer peripheral edges of the housing, perpendicular to the longitudinal direction in which the through opening 320 extends.

When the plate 350 is at rest on the body 310 of the bracket 300 (FIG. 18), the outer edge 353 of the specified plate 350, facing outward of the bracket 300, is adjacent to the outer side edge 340C of the socket 340. The flexible tabs 361 rest on the inner edge 354 of the plate. 350 facing inside the bracket 300 (towards the receiving opening for the electrical appliance mechanism). This inner edge 354 of the plate 350 forms the bearing surface 355 of the plate 350.

When the plate 350 is in the first mounting position on the body 310 (FIG. 19), which in this case is central, the outer edge 353 of the plate 350 is spaced from the outer side edge 340C of the socket 340. The flexible tabs 361 are compressed towards the inner side edge 340A socket 340 from which they are made. These flexible legs 361 naturally tend to regain their resting position and therefore push the plate 350 into the resting position.

According to this third embodiment, the locking means 370 are formed by the outer side edge 340C of the seat 340 against which the plate 350 rests when the elastic return means 360 push it into the rest position.

According to another variant, not shown, it is possible to provide that only one of the plates is movable and slides in its seat, while elastic return means are provided between the bracket body and only this plate. In this case, other through openings are provided directly in the corresponding crossbar of the frame, and this crossbar does not contain a recess forming a nest, or is made in other plates fixedly mounted on the bracket. This option facilitates the mounting of the bracket on the wiring box, since the elastic return means pushing the plate to the rest position make it possible to maintain the proper center distance between the through opening of this plate and the opposite through opening of the bracket relative to the receiving opening for the mechanism of the electrical appliance, in order to install the bracket on the electrical installation box, while the means of sliding allow you to save a degree of freedom to move the record if necessary.

It is also possible to provide for the implementation of the through opening of each plate in the form of a simple elongated hole, the major axis of which is parallel to the crossbar of the frame in which it is located. In this case, to mount the bracket on the wiring box, first install the screws in the elongated holes of the bracket, then install the whole set on the wiring box. Mounting the bracket on the wiring box is also facilitated, since the axes of the screws passing in the plates in the rest position on the bracket body are automatically separated from each other by the center distance separating the threaded screw shafts made on the wiring box.

It can be provided that the frame of the bracket body has a substantially circular shape. In this case, the transverse direction of sliding of the plate on the bracket body will be radial relative to the specified frame.

The invention can also be applied to a multi-station bracket made in the form of a single block, designed to install several mechanisms of electrical appliances in it through several receiving openings and for mounting on a multi-station wiring box. As a rule, such a multi-gang bracket does not contain a through opening for the passage of fixing screws between the receiving openings for installing the mechanisms of electrical appliances, but only on the periphery along the outer peripheral edge of the housing. Such a multi-gang bracket can be docked with another multi-gang or single-gang bracket, as described above.

Claims (14)

1. Bracket (100; 200; 300) of an electrical device containing a body (110; 210; 310) equipped with sliding means (130; 330) and at least one movable plate (150; 250; 350) entering into said sliding means (130; 330) having a through opening (120; 320) for attaching the said bracket (100; 200; 300) of the electric appliance to the receiving element (10), characterized in that the housing (110; 210; 310) contains at least one socket (140; 240; 340), in which the said movable plate (150; 250; 350) is installed and in which the said means (130; 330) are made sliding movements providing sliding movement of the plate (150; 250; 350) installed inside the socket (140; 240; 340), while the specified bracket (100; 200; 300) of the electrical device additionally contains elastic return means (160; 260; 360 ) acting between the plate (150; 250; 350) and the housing (110; 210; 310) to return said plate (150; 250; 350) to a predetermined rest position. 2. Bracket (100; 300) of the electrical appliance according to claim 1, in which the specified elastic return means (160; 360) are made on the body (110; 310) of the specified bracket (100; 300) of the electrical appliance and rest on the supporting surface (155 ; 355) of the indicated plate (150; 350). 3. Bracket (200) of an electrical appliance according to claim 1, in which said elastic return means (260) are made on said plate (250) and rest on the supporting surface (255) of the housing (210) of said bracket (200) of the electrical appliance. 4. Bracket (100; 200; 300) of an electrical appliance according to one of paragraphs. 1-3, in which, since the specified through opening (120; 320) of the plate (150; 250; 350) has a generally elongated shape in the longitudinal direction (L) for the passage of the fastener (500) intended for fastening the specified bracket (100 ; 200; 300) of the electrical device on the receiving element (10), the indicated means (130; 330) of sliding movement provide translational movement of the specified plate (150; 250; 350) relative to the specified body (110; 210; 310) in the direction (Y1, Y2, Y) sliding movement, generally perpendicular to the specified longitudinal direction (L). 5. Bracket (100; 200) electrical appliance according to one of paragraphs. 1-4, in which the specified housing (110; 210) contains a frame (112; 212), the outer peripheral edge (113) of which limits the nest (140; 240) due to the recess so that the specified nest (140; 240) opens outward bracket (100; 200) of the electrical appliance. 6. Bracket (100; 200) of the electrical appliance according to claim 5, in which, in the specified rest position, the part (153; 253) of the rib of the specified plate (150; 250), facing the outside of the bracket (100; 200) of the electrical appliance, is located in the main on the same line with the part (113A) of the outer peripheral edge (113) of the specified frame (112; 212), which is located on both sides of the socket (140; 240). 7. An electrical appliance bracket according to claim 5, in which, in said rest position, part of the rib of said plate, facing outward of the electrical appliance bracket, is located mainly indented from a part of the outer peripheral edge of said frame, which is located on both sides of the socket. 8. Bracket (300) electrical appliance according to one of paragraphs. 1-4, in which the specified housing (310) contains a frame (312) having an outer peripheral edge and an inner peripheral edge connected to each other by a rear surface (312B), and a socket (340) is made in a recess of said rear surface (312B) on distance from said outer and inner peripheral edges of said frame (312) so that the socket (340) opens in the rear direction of the bracket (300) of the electrical appliance. 9. Bracket (100; 300) electrical appliance according to one of paragraphs. 4-8, in which locking means (170; 370) are additionally provided opposite to said elastic return means (160; 360) in the sliding direction (Y1, Y2, Y) to hold the plate (150; 350) on said housing (110; 310) bracket (100; 300) of the electrical appliance. 10. Bracket (100; 200; 300)) electrical appliance according to one of paragraphs. 1-9, in which the housing (110; 210; 310) contains two sockets (140; 240; 340) located in a line, in which two plates are installed with the possibility of sliding movement, while there are elastic return means (160; 260; 360 ) acting between each plate (150; 250; 350) and the specified housing (110; 210; 310) to return each plate (150; 250; 350) to a predetermined rest position. 11. Bracket (100; 200; 300) of an electrical appliance according to claim 10, in which the specified through opening (120; 320) of each plate (150; 250; 350) has the shape of a keyhole with a round part (121) for passing the head ( 501) of the fastening element (500), while the rest positions of the two plates (150; 250; 350) are defined as the positions in which the centers (C) of the round parts (121) of the said through openings (120; 320) are separated from each other by a predetermined a certain distance equal to the center distance (D) separating two threaded shafts (11) for installing fasteners (500) in the receiving element (10). 12. Bracket (100; 200; 300) of an electrical appliance according to claim 11, in which the through opening (120; 320) of each plate (150; 250; 350) additionally contains an elongated part (122), which continues the specified round part (121 ) and the width of which is less than the diameter of the said circular part (121), and the major axis (E) of which is offset from the center (C) of the said circular part (121) by a distance less than or equal to the total sliding stroke of the plate (150; 250; 350) in her nest (140; 240; 340). 13. An electrical appliance (1) containing a bracket (100; 200; 300) of an electrical appliance according to one of paragraphs. 1-12 and the mechanism (20) of the electrical appliance mounted on the specified bracket (100; 200; 300) of the electrical appliance.

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