FR2943467A1 - Electrical connector for public lighting system, has connection assemblies located in interior space delimited by partitions, where one of branches of electrical plate in each assembly includes unit for connecting conductor of user device - Google Patents

Abstract

The connector (1) has connection assemblies (M1, M2) located in an interior space delimited by input and output partitions, where each assembly is composed of an L-shaped electrical plate (10). The plate comprises a connection branch (11) located opposite to the input partition and consisting of an electrical connection system. Another connection branch (12) of the plate extends to the output partition. One of the branches comprises a connection unit for connecting a conductor of a user device, where the branches are connected between them.

Description

The invention relates to an electrical connector for connecting a conductor electrically supplying a user device to at least two conductors of the same polarity of a distribution network for electrical energy, in particular a public lighting network. The known connectors of this type have the disadvantage of not allowing a sufficiently easy connection of the cables supplying a power network, which are usually of high section and therefore difficult to connect. As a result, these connectors require engineered metal parts most often comprising screw clamping systems and auxiliary plates welded or brazed, which increases the cost. On the other hand, the high rigidity of the cables generates electrical conductivity failures over time resulting from the loosening of the aforementioned screws under the effect of the vibrations of the supports of these connectors or of the remanent voltages caused by the disjointed strands of the so-called electrical conductors. when cabling and placing them in the electrical mounting boxes, especially in the confined space at the foot of the candelabrum. Connectors of known types being wired generally outside an enclosure of the kind inside a candelabrum, the action of then introducing them into the enclosure is against the rigidity of the cables, This leads to increased voltages in the connectors that can cause long-term electrical continuity faults. The present invention aims to overcome these disadvantages.

To achieve this goal, the connector object of the invention is of the kind to include an interior space delimited by partitions, one of which is the entrance wall through which penetrate the said-network conductors and another is the exit wall, opposite the entrance wall, through which penetrates the driver of said user device ,. The connector object of the invention is characterized in that it comprises in its interior space two connection assemblies (M1, M2) each composed of an electric plate having the shape of a (L) of which a connecting branch makes facing the said input partition and comprises a system for electrical connection of the said conductors of the distribution network and the other connecting branch extends from the said connecting branch to the said-output partition, in that each of said connection sets is located on either side of their so-called connecting leg which are opposite each other and in that said link branches are electrically connected between they, and at least one of them has a means of connection to the said driver of the user device. According to another advantageous characteristic of the invention, the electrical connector object of the invention has the advantage that each of the connection assemblies comprises a main spring such that each of the stripped ends of the conductors of the

2 energy distribution network is plated under the effect of the pressure of the said main spring in contact with a stop arranged selectively to the free ends of the connecting branches. According to another advantageous characteristic of the invention, the electrical connector is characterized in that operating elements are accessible on each side of the connector and that they allow, by their displacement in translation or in rotation, the actuation of the main spring to against his pressure. The invention will be better understood and other objects, features, details and advantages thereof will appear more clearly in the explanatory description which follows, with reference to the appended diagrammatic drawings given solely by way of nonlimiting examples illustrating several modes of Embodiment of the invention and in which: FIG. 1 is an exploded and perspective view of a first embodiment of an electrical connector according to the invention. FIG. 2 is a front view of the same embodiment of the interior of said connector 15 according to FIG. 1. FIG. 3 is an exploded view of an embodiment of constituent elements of said connector according to FIG. Figure 2. Figure 4 is an exploded view according to a second embodiment of constituent elements of the connector according to the invention. Figure 5 is a front view of an internal detail of the connector according to a third embodiment of the invention. Figure 6 is a front view of the interior of a fourth embodiment of the invention. Figure 7 is a front view of the interior of a fifth embodiment of the invention. According to Figure 1 the electrical connector object of the invention is intended to interconnect the electrical cables of a polyphase electrical power distribution network, and to connect to this network of electrical receivers. Usually each of the cables A, B come from the same direction, especially in public lighting from the bottom of a candelabrum. The said cables comprise a number of conductors equal to that of the phases of the network. According to FIG. 1, the connector (1) which is the subject of the invention is intended on the one hand to electrically connect the connector C1 issuing from the cable A to the connector C2 coming from the cable B of the same polarity as the connector C1, and on the other part to connect to said network a power cable D of a user device, such as the equipment supported by a candelabrum. The

3 electrical conductors of cables A, B are usually of strong cross section, which gives them a high rigidity. The conductors C1 and C2 are cut transversely so that the stripped end c1, c2 of each of them penetrates and connects inside the envelope G of the connector (1) object of the invention. To do this, the connector (1) comprises, according to the same partition (x) of the envelope G, cells 3 and 4 serving selectively to introduce the ends c1 and c2 towards its inside, while the stripped end (d) conductor D connects to the connector (1) through a hole (5) formed through the partition (y) of the connector (1) which is opposite to its partition (x).

The envelope (G) is composed of a bottom (6) and a cover (7) of insulating material adapted to be fixed on the bottom (6) which delimit, with their partitions, the interior space of the connector ( 1). The bottom (6) comprises grooves (8) in which the various parts are housed, in particular the electrical connection assemblies M1 and M2 for connecting the connectors C1 and C2 and the connection means for the shunt cable D.

Figures 2, 5, 6 and 7 show, according to various embodiment, a front view of the bottom (6). With reference to Figure 2, each set M1, M2 comprises a main spring R and an electrically conductive plate 10 having the general shape of an L. This plate 10 comprises on the one hand a connection branch 11 facing the partition (x) which comprises a system for electrical connection of said conductors (C1, C2) of the distribution network, and on the other hand a branch of link (12) extending from said connecting branch 11 close to the partition (x) towards the orifice (5) of the partition y, the conductor coming to connect on at least one of the ends 13 ( 13a, 13b) of the plates 10, opposite the connecting branch 11.

It is further observed with reference to FIGS. 3 and 4, that the two sets M1 and M2 are arranged on either side of their connecting branch 12 (respectively: 12a and 12b), the electrical continuity between the two sets M1 and M2 being made by an electrical connection connecting each of the branches 12a to 12b. This electrical continuity is achieved either by an electrical contact of the branch 12a with the branch 12b as shown in FIG. 3, or, with regard to FIG. 4, by the two links 12a and 12b of the connections 10 whose ends 13 are connected. to form a single piece folded on itself 22. In the representation made in Figure 2, it is observed that the two sets M1 and M2 are identical and placed symmetrically with respect to their respective branch 12.

According to FIGS. 2, 3 and 4, for each of the connection assemblies M1, M2, the connection of the connectors Cl, C2 is effected by means of the main spring R exerting a force in the direction of the arrow F towards their stripped end cl , c2. Each of the ends c1, c2 is then pressed into contact with the corresponding abutment 17 arranged in the connecting branch 11 at its end 11a, 11b. According to FIG. 3, this abutment 17 is made by cambering the end 11a, 11b of each of the branches 11 of the plates 10, and according to FIG. 4, it can also be carried out by an orifice 21 arranged in the branch 12, the stop 17 then corresponding to the upper part of the orifice 21 towards the end 11a. It should be noted that this stop 17 is configured to receive the end of the connector C1, C2 through the cell (3,4) arranged in the partition (x). Referring to FIGS. (2, 3 and 4), the spring R is favorably a curved spring blade whose one end R1 exerts the aforementioned force F, the other end R2 of the spring R being wedged in a suitable groove ( 8) of the bottom (6) of the connector (1) object of the invention. In addition, according to Figures 3 or 4, the end of the spring R is favorably folded back to its end R1 along a slope (p). Thus, when one of the conductors (C1, C2) is forcefully introduced into the connector (1), its high rigidity makes it possible to push the spring R against the pressure F, by sliding on the slope (p) until its stripped end (c1, c2) gets stuck between the spring R and the abutment 17. According to FIGS. 1 and 2, another interesting characteristic of the invention stems from the fact that for each connection assemblies M1, M2, operating members 25 act on the main spring R so as to push it against its pressure F. Each of the operating members 25 is articulated about an axis (z, z ') perpendicular to the bottom (6) and the cover (7) of the housing; They comprise a control lever 27 which pivots in overflow respectively partitions (v) and (w) located on either side of the envelope G distinctly partitions (x) and (y). Opposite the lever 27, the operating member 25 internally comprises at the connector (1) a cam 28 bearing on the top Rx of the spring R so as to push it in a rotation of the lever 27, according to FIG. 2, counterclockwise. The same effect could be obtained, according to FIG. 5, by an actuating member 29 moving in translation in a direction (m) tangential to the spring R. This elongated member 29 comprises at its end 31 a wedge shape. interposing between a bearing surface 32 of the spring R and a suitable ramp 33 arranged in a groove 8 of the bottom 6 of the connector (1) object of the invention when one manually presses on the opposite end 34. It is obvious that by moving the operating member 29 in the direction of the arrow (m), the wedge 31 bears on the ramp 33 and pushes the spring R, which causes the desired effect of its opening. The same effect could be obtained with a button moving in translation perpendicular to the bearing surface Rx of the spring R without the nature of the invention being altered. The effect of the operating members (25, 29) is particularly advantageous. Indeed, as can be seen in Figure 2, the connector (1) object of the invention is then easy to connect to the drivers C1, C2 from the cables A, B of the network since it suffices to enter d 1 hand drivers C1, C2, to present their stripped ends cl, c2 in the cells (3, 4) of the connector (1) held in the other hand until they penetrate inside the said connector (1) slidingly pushing the end of the connectors Cl, C2 on the ramps (p) of the springs (R) until the stripped portion of the connectors and, c2 locks in contact with the stop (17). ) connecting branches (11) under the effect of the springs R.

According to Figure 1, it may be noted that the cover (7) will be favorably translucent to allow the operator to visually ensure the proper connection of the conductors in the connector (1). The connection of the different phases of the cable network A, B mentioned above requires successively connect each of the conductors of the same polarity with connectors (1) object of the invention. It should be noted that the various connectors (1) are then arranged against each other. When it is necessary to bring them together and push them back into their housing, especially towards the bottom of the interior space of a candelabrum, this has the effect of moving the conductors (C1, C2) relative to one another and generating relative displacements between said so-conductors, which causes tensions in the internal connections of said connectors (1), effect that one seeks precisely to avoid. Actuating the actuating members (25, 29) against the springs R has the effect of opposing the force F exerted by each of the springs R on the conductors c1, c2 of each of the connection assemblies ( Ml, M2) and release the aforementioned harmful mechanical stresses. In addition, with regard to Figure 2, it is observed that the levers 27 of the actuating members (25, 29) protrude, according to the discontinuous line pattern 27 ', partitions (v) and (w). This arrangement makes it possible to simultaneously hold said operating members placed on either side of the connector (1) in the open position of the spring (R) against

6 of the force (F) and simultaneously unlock the connectors Cl, C2, which facilitates the above operation. With reference to FIG. 3, it can be seen that the end (13) of at least one of the connecting branches (12) of the plates (10) is in electrical connection with the stripped end (d) of the D. This connection is made by means of a spring r whose end r1 comprises a recess 15 facing the recess (5) of the face (y) of the connector 1, the recess 15 made in the spring r allows the passage of (the) ends 13. The spring pressure (r) is exerted in the direction of the arrow (t). It is adapted to block the stripped end d of the conductor D in contact with the end 13. By exerting on the operating knob 16 bearing on the top (r2) of the spring r a pressure against the pressure ( t), the spring releases the end (d) of the cable D which can be disconnected. Referring to Figure 6, according to another advantageous arrangement of the present invention, the connecting legs 12a and 12b of the electric plates 10 are located on either side of a wall 40 of the bottom (1). They terminate at their respective ends 19a, 19b forming an acute angle between them so that an electrically conductive corner-shaped contact piece K can jam in them and make electrical contact between each of the connection sets M1. and M2. The bottom 6 comprises a cavity Ka which allows, through the envelope G, using a tool, to push the corner against its jamming and thus to open the electrical contact between the branches 12a and 12b. This advantageous arrangement makes it possible selectively to control, in particular with a view to carrying out an electrical test, the upstream and downstream cables of an installation without having to remove them from the connector (1). According to Figure 7, the connector (1) object of the invention allows the electrical connection of the electrical conductors C1, C2 and C3 of the same polarity from three cables A, B, C of a power supply network. As described above, the internal electrical connection is made by means of connection sets M1, M2, M3 and springs R1, R2, R3 themselves actuated by actuating members 50, of the same type as those previously described in 26. However, the sets M2 and M3 comprise electrical plates in continuity, the plate 10 of M2 identical to that described in Figure 4 is extended in a plate 52 also L-shaped whose connecting branch 53 extends to the square the branch 11 of the link 10, and the other connecting branch 54 is identical to the branch 11 and serves as connection to the third conductor C3.

7 It remains to mention the advantage of the simplicity of manufacture of the connector (1) object of the invention: indeed, the plates 10, they are made in the form of a single piece as shown in Figures 4 and 7, or two pieces according to Figure 3, are achievable with metal blades cut and folded in series by cutting tool, the springs R and r are favorably flat blades, shaped and arched according to common manufacturing techniques. of springs, the cover (6), the cover (7) and the buttons are plastic parts obtained by mass casting. The assembly of these parts is achieved very simply by driving the plates 10 and the springs R into the grooves 8 of the bottom 6. These parts are held together. The operating members (25, 29) are placed with the same ease in the appropriate grooves 8. Then we close the cover 7 on the bottom 6. This description makes it possible to understand the simplicity of manufacture of the connector object of the invention and to understand that the connector object of the invention is of a very low construction price compared to the known devices. The present invention is intended for the electrical connection, especially in public lighting. 20 25 30 35

Claims (10)

Claims: 1) An electrical connector for connecting a conductor electrically supplying a user device to at least two conductors of the same polarity of an electrical energy distribution network, in particular a public lighting network, being of the type to include a space interior delimited by partitions, one of which is the entrance wall through which penetrate the conductors of dit-réseau and another is the exit wall, opposite the entrance wall, through which penetrates the conductor of said user device, characterized in that said connector comprises in its interior two connection assemblies (Ml, M2) each consisting of an electric plate having the shape of a (L) of which a connecting branch faces the so-called input partition and comprises a system of electrical connection of said conductors of the distribution network and whose other connecting leg extends from the said e-connecting branch to the said-output partition, in that each of said connection sets is located on either side of their said link-branch which are opposite one another and in that said so-called connecting branches are electrically connected to one another, and that at least one of them has a means of connection to said conductor of the user device. 2) electrical connector according to the preceding claim, characterized in that each of the connection assemblies (Ml, M2) comprises a main spring R such that each of the stripped ends (C1, C2) of said distribution network conductors of energy (C1, C2) is pressed under the effect of the pressure F of the spring R in contact with a stop 17 arranged selectively towards the free ends (11a, 11b) of the connecting branches 11 to form the so-called system connection. 3) electrical connector according to the preceding claims, characterized in that the spring R at its end R1 is folded back along a slope (p) so that the introduction of the end (cl, c2) of the conductor ( C1, C2) which is associated with it, inside the connector (1), pushes the spring R against its pressure F, sliding on one side on its slope (p) and the other on against the stop 17. 4) electrical connector according to the preceding claims, characterized in that actuating members 25, accessible on each side of the connector (1) allow, by their displacement in translation or rotation, the actuation of the spring G against of his pressure F. 9 5) electrical connector according to the preceding claims, characterized in that its envelope G is composed of a bottom 6 comprising grooves (8) serving as a housing for the electrical connection assemblies M1 and M2, the springs R and the actuators (25, 29), and a cover 7 covering the bottom 6, the cover 7 being favorably translucent. 6) Electrical connector according to the preceding claims, characterized in that the said means of electrical connection between the end 13 of said connecting branch 12 and the stripped portion (d) of the conductor D is achieved by means of a spring (r) whose end r1 comprises a recess 15 serving as a passage for the end 13 and the portion (d) of the conductor D, that is, recess 15 facing the recess (5) formed in the partition (y) of the connector 1, the spring pressure (r) acting in the direction of the arrow (t) and being adapted to block the stripped end (d) in contact with the end 13, and in that that pressing against the pressure (t) on the operating member 16 cooperating with the top r2 of the spring (r) has the effect of releasing the connection of the driver d. 7) Electrical connector according to claims 1 and 2 characterized in that the electric plates 10 form a single piece folded on itself at the end 22 of the connecting branches 12a and 12b. 8) electrical connector according to claim 1 and 2 characterized in that the electrical continuity of the connecting branches 12a to 12b is made by electrical contact between them. 9) electrical connector according to claim 8 characterized in that the connecting branches 12a and 12b are located on either side of a partition (6) of the bottom (1) and their respective ends 19a, 19b end in forming an acute angle between them so that an electrically conductive corner-shaped contact piece K can jam in them and make electrical contact between each of the connection sets M1 and M2. 10) electrical connector according to claims 1 to 7, characterized in that it establishes the electrical connection of the electrical conductors C1, C2, C3 of the same polarity from a power supply network, the internal electrical connection to the connector (1) being made through the same partition (x) by means of connection sets M1, M2, M3 which comprise springs R1, R2, R3 themselves actuated by actuators 50 identical to the actuators (29), and in that the connection assemblies M2 and M3 are in electrical continuity with each other, the connection branch 11 of the connection assembly M2 extending into the connection branch 53 of the plate 52 L-shaped M3 having the other connection branch 54 of the C3.5 conductor connection