FR3021463A1 - EMBASE FOR OPENING MODULES FOR CONTROLLING AND / OR CONTROLLING DEVICES REDUCING WIRING COSTS AND DIMENSIONS - Google Patents

Abstract

The invention relates to a wiring base (72) for pluggable control and / or device control modules (32), comprising a first set of electrical connection pieces (41a) to a connector (40a) of a module. plug-in connector, characterized in that it comprises a negative polarity distribution terminal (46a) and in that each of the parts (41a) of the first set comprises a connection point (C1) for a first interconnection bar (B1) coupled to the negative polarity distribution terminal. The base may further comprise a positive polarity supply terminal (46d) and cable connection terminals (46c) each associated with a conductive part (41c) comprising a connection point (C2) for a second bar interconnection device (B2) coupled to the positive polarity supply terminal (46d).

Description

The field of the invention is that of automation in electrical transmission and distribution systems. BACKGROUND OF THE DISCLOSURE In particular, the invention relates to the control and / or control elements, in particular electrical network protection, receiving logical information, in particular all-or-nothing type, which make it possible to display the position or the alarms of devices , especially high voltage disconnectors, circuit breakers, or other, and possibly perform automatic actions from this information. STATE OF THE PRIOR ART Power distribution networks comprise numerous devices, to protect and operate the line (circuit breakers, disconnectors), to transform the voltage, to transform the current into measurable values by the control / command and protection equipment, etc. These devices, called primary, are usually controlled by automation systems that include so-called secondary devices that acquire information from the primary equipment or other equipment associated with its operation as a sensor. For example, the secondary devices may include control / control computers or digital protection relays. Secondary devices, also known as intelligent electronic devices or IEDs according to the English terminology "Intelligent Electronic Device", are able to receive information, generally of the all-or-nothing type Dl (for "Digital Input" according to the English terminology) , relating to primary equipment, for example of the type: closed circuit breaker, open circuit breaker, closed disconnector, open disconnector, low insulation gas density threshold, etc.

For this purpose, as illustrated in FIG. 1A, an IED 1 comprises a central unit 2, typically installed in a low voltage cabinet, which comprises external signaling acquisition members 4 connected to connectors 6 to which wires are connected. 8, usually copper, which connect them to external equipment 10, for example circuit breakers or disconnectors of the electrical distribution network. Conventionally, the cabinet of the IED 1 is wired at the factory and it comprises terminal blocks 12 at the other end of the son 8 connected to the connectors 6 of the central unit 2. The terminal blocks 12 are suitable for connection to the external equipment 10 by copper wires 14, often of larger section than the son 8 between the terminal blocks 12 and the central unit 2. Given the complexity of the connection of such central units 2, the cost generated by the wires of copper 8 themselves and the cost associated with the wiring time, modular IEDs 1 'have been developed, as shown diagrammatically in FIG. 18. Typically, the IED 1' comprises a base 16 fixed in the low-voltage cabinet, conventionally on a rail, providing the function of a terminal terminal with the wires 14 for connection to the equipment 10. In this base 16 can be plugged module forming housings 18 which contain signal acquisition elements exte 20, which are connected to the junction terminals of the base 16 by pins 22. The external signal acquisition means 20 transmit the present or absent state of the equipment 10 through a communication, typically digital , Which connects the base 16 to the central unit 2 '. To enable communication between the central unit 2 'and the plug-in modules 18, a communication connector 26 is provided. The information communication 24, 26 furthermore transmits the power required for the operation of the external signaling acquisition members 20. Thus, when a plug-in module 18 is inserted in the base 16, a double connection is put in place. the connection terminals are connected by a connector 22 to the external signaling acquisition members 20, and the communication connector 26 enables the transmission of the communication signals via the connection 24. However, when the module 18 is unplugged, the devices acquisition external signaling 20 are no longer operational since the digital communication between the central unit 2 'and the housing 18 is interrupted: it is not possible to easily test the proper operation of this module 18. Moreover, cabling remains relatively important, especially to achieve the distribution of polarities, resulting in a cost of material and labor. And congestion can also be important, especially when an electrical cabinet contains a large number of modules. DISCLOSURE OF THE INVENTION The invention aims at overcoming the existing drawbacks of modular IEDs, and proposes for this purpose a wiring base for plug-in control and / or control device modules, comprising a first set of electrical connection pieces. to a connector of a plug-in module, characterized in that it comprises a distribution terminal of negative polarity and in that each of the parts of the first set comprises a connection point for a first interconnection bar coupled to the terminal of negative polarity distribution. Some preferred but non-limiting aspects of this base are the following: the negative polarity distribution terminal is carried by a part of the first set; the base comprises a second set of electrical connection parts to a connector of a plug-in module, each of the parts of the second set comprising a positive polarity distribution terminal; the parts of the first and second set are paired together to form pairs of parts, each pair of parts being associated with a plug-in module and consisting of a part of the first set and a part of the second set; the base further comprises a supply terminal of positive polarity and cable connection terminals each associated with a conductive part comprising a connection point for a second interconnection bar coupled to the positive polarity supply terminal ; the positive polarity supply terminal is carried by a connecting bar comprising a connection point for the second interconnection bar.

The invention also extends to an intelligent electronic device comprising a housing comprising one or more pluggable control and / or device control modules and a base according to the invention. BRIEF DESCRIPTION OF THE DRAWINGS Other aspects, objects, advantages and characteristics of the invention will appear better on reading the following detailed description of preferred embodiments thereof, given by way of non-limiting example, and made in reference to the accompanying drawings in which: FIGS. 1A and 1B, already discussed above, illustrate an IED according to two embodiments of the prior art; FIG. 2 illustrates a possible embodiment of a modular IED according to the invention; Figures 3 and 4 are diagrams showing the housing and the base with respectively the housing in the detached position of the base and in position plugged into the base; Figures 5 and 6 are diagrams illustrating examples of distribution of polarities to an IED according to Figure 2; Figure 7 is a diagram illustrating the distribution of polarities to an IED comprising a base according to a first possible embodiment of the invention; FIG. 8 is a diagram illustrating the distribution of polarities to an IED comprising a base according to a second possible embodiment of the invention; Figures 9 and 10 are perspective views of an embodiment of the base according to the second possible embodiment of the invention.

DETAILED DESCRIPTION OF PARTICULAR EMBODIMENTS It is proposed by the Applicant to deport the information acquisition inputs from the external devices to the plug-in modules, instead of integrating them into the central unit or into the base. Thus, the modules remain fully operational when they are disconnected and their proper functioning can be verified, for example by setting up a test bench simulating the presence or absence of external signals. According to this proposal illustrated in FIG. 2, an IED 30 comprises several modules 32, identical or not, which are housed in a common housing 34.

Each module 32 comprises an external signal acquisition member 36, possibly coupled to a control member 38, emerging from the housing 34 by connection means 40, for example a sliding male / female contact. The connection means 40 are indirectly connected to the equipment 10 controlled by the IED 30 when the module 32 is plugged into a suitable support. In particular, the IED 30 comprises a base 42 provided with a housing 44 into which the housing 34 can be inserted. The base 42 comprises junction terminals 46 making it possible to connect it to the surrounding low-voltage equipment 10, in particular by means of insulated copper wires 48. The signaling information from the wires 48 and acquired by the module 32 connected thereto is transmitted to a central unit 50 by a communication device 52 which is directly integrated with the housing 34. Thus, the base 42 no longer contains a communication connector, neither to the central unit 50, nor to a module 32 or the plug-in box 34. The external signal acquisition members 36 transmit the information acquired via a link 54 which is directly connected to the housing 34 by a communication device 52, for example via a connector 56, even if a wireless link can be provided. In fact, by this new configuration, the insertion of the module 32 in the base 42 is accompanied by the only connection of the external signaling acquisition members 36 by a power connector 40, as opposed to a communication connector which only transits very low voltage signals. Figures 3 and 4 are diagrams showing the housing 34 and the base 42 with respectively the housing in the detached position of the base and in position plugged into the base. The contacts 40 of the housing 34, two in number per module 32, are male contacts 40 each engaging with a female contact 41 of the base 42, the female contact 41 being connected to a junction terminal 46 for the connection The distribution of the polarity S + and S- at the various junction terminals 46 is conventionally achieved by terminal blocks represented in a standardized manner by two rounds connected by a vertical line. An example of a distribution made on the opposite side of the wires 48 is shown in FIG. 5, while an example of distribution performed on the IED side 30 is shown in FIG. 6. The polarity is represented by the wires 48. permanently energized identified by S- (from the pole - of a battery), son that can feed the inputs of the IED by said polarity. When an initially open contact C closes, a wire is then fed by the polarity S + and the input goes to the state 1 because one of the junction terminals is then supplied by S + while the associated junction terminal is fed by S -. As shown in FIG. 6, the contacts 40 of a plug-in module 32 can thus be separated into a first connector 40a and a second connector 40b, the contacts 41 of the base into a first set of electrical connection pieces 41a and a second set of electrical connection pieces 41b, and the junction terminals 46 of the base in a first set of negative polarity distribution terminals 46a and a second set of positive polarity distribution terminals 46b (also referred to as distribution terminals signals fed with positive polarity). A negative polarity distribution terminal 46a is connected to a part 41a of the first set of electrical connection pieces, which is coupled, in the plugged position of a module 32 in the base, to the first connector 40a of the plug-in module 32. Similarly a signal distribution terminal supplied with positive polarity 46b is connected to a part 41b of the second set of electrical connection pieces, which is coupled, in the plugged position of a module 32 in the base, to the second connector 40b of the module Thus, there is alternately a negative polarity distribution terminal 46a and a signal distribution terminal supplied with positive polarity 46b. The distribution of polarities requiring terminal blocks and cabling by individual son, it generates a cost (material, labor) and a large footprint. In order to lower the cost and reduce the bulk, the invention proposes a modified base. Referring to Figure 7 illustrating a possible embodiment of the invention, there is provided a wiring base 62 for pluggable modules 32 for control and / or control of devices, the modules 32 being grouped within a housing 34 as described above. The base comprises more particularly a first set of electrical connection pieces 41a to a first connector 40a of a plug-in module 32 and a distribution terminal of negative polarity 46a. Each of the pieces 41a of the first set comprises a connection point C1 for a first interconnection bar B1 coupled to the negative polarity distribution terminal 46a. In such a way, the wiring which was necessary in the configuration of FIG. 6 is eliminated in order to achieve the distribution of the negative polarity. This elimination is carried out in a particularly simple manner by connecting one terminal to two on the base by means of an interconnection bar. Furthermore only a negative polarity distribution terminal 46a remains necessary, as for example shown in Figure 8 illustrating another base 72 modified according to the invention. With the base 62 of FIG. 7, the terminal blocks BJ remain necessary. But their removal would be advantageous to further reduce the cost and bulk. For this purpose, the invention also proposes an improvement to the base of FIG. 7, this improvement being represented in FIG. 8.

The base 72 comprises, like that of Figure 7, a first set of electrical connection pieces 41a to a first connector 40a of a plug-in module 32 and a negative polarity distribution terminal 46a. Each of the pieces 41a of the first set comprises a connection point C1 for a first interconnection bar B1 coupled to the negative polarity distribution terminal 46a. The negative polarity distribution terminal 46a is here unique. It is also carried by a part 41a of the first set of electrical connection parts. The base 72 also comprises a second set of electrical connection pieces 41b to the second connector 40b of a plug-in module 32, each of the pieces 41b of the second set carrying a distribution terminal 46b of the signals carried by the wires 48 supplied with polarity. positive when contact C is closed. As has been seen previously, the parts 41a, 41b of the first and second assemblies are paired together to form pairs of parts, each pair of parts being associated with a plug-in module 32 and constituted by a part 40a of the first set and a piece 40b of the second set. The base 72 further comprises a supply terminal of positive polarity 46d and cable connection terminals 46c each associated with a conductive part 41c comprising a connection point C2 for a second interconnection bar B2 coupled to the terminal d positive polarity supply 46d. Each conductive part 41c is opposite a part 41a of the first assembly, with an interruption of electrical continuity between these parts 41c, 41a. The positive polarity supply terminal 46d may in particular be carried by a link rod 49 comprising a connection point 50 for the second interconnection bar B2. The wiring is limited in the configuration of Figure 8 to the polarity S + and S- and the installation of interconnection bars Cl, C2 which distribute the polarity S + and S- to the entire base and modules plugged into the base. The BJ terminal blocks are also deleted. This results in savings in terms of hardware, wiring time and space requirement compared to the solution of FIG. 6. It will be noted that each of the interconnection bars B1, B2 may be removably mounted, or conversely installed. in the base 62, 72. FIGS. 9 and 10 show two perspective views of an exemplary embodiment of the base 72 shown schematically in FIG. 8. In this example, the various terminals 46a, 46b, 46c, 46d are screw connection terminals.

The electrical connection pieces 41a of the first set each comprise a conductive strip having a longitudinal longitudinal segment 68 extending at one of its ends in a parallel plane by a shoulder 67 to which it is connected via a cross section. connection 68. The electrical connection pieces 41b of the second set each comprise a conductive strip having a longitudinal longitudinal segment 69 extending at each of its ends in a plane parallel by a shoulder 70a, 70b to which it is connected via a connecting section 71a, 71b. The plane segment 66, 69 of each of the electrical connection pieces 41a, 41b carries an electrical contact intended to establish the electrical continuity between the plane segments 66, 69 and the contacts 40a, 40b. In the preferred embodiment illustrated, it is a clamp spring electrically connected to the bar. The spring is formed mainly of an elastic blade 73 at the free end of which there is a curved piece 74 twice that has a contact portion 75 framed by two ribs 76 and intended to come into contact with the end of a connector 40a, 40b of a plug-in module. As shown, the connecting bar 49 may take the form of a conductive strip similar to that forming a part 41b of electrical connection of the second set. In FIGS. 9 and 10, the connecting bar is shown with a connection terminal screwed on the opposite side to the positive polarity supply terminal 46d, as well as with an electrical contact. This connection terminal and this electrical contact are optional. Conductive parts 41c each associated with a cable connection terminal 46c take the form of a short plane segment arranged in the same plane as the shoulders of parts 41a, 41b of electrical connection. Each of the conductive parts 41c is arranged facing an electrical connection piece 41a of the first set, with interruption of electrical continuity as mentioned above. This arrangement is alternately positioned with the electrical connection pieces 41a of the first set. The connection points C1 for the first interconnection bar B1 consist of orifices arranged in the shoulders of the conductive strips of the electrical connection pieces 41a of the first set. . The connection points C2 for the second interconnection bar B2 consist of orifices arranged in the conductive parts 41c and in one of the shoulders of the connecting bar 49 (the other shoulder carrying the polarity supply terminal positive 46d, here in the form of a screwed connection terminal). The interconnect bars B1, B2 each take the form of a comb whose teeth are spaced apart so as to be able to interconnect every other part, and configured to be introduced into the orifices forming the connection points C1, C2. 25

Claims (7)

REVENDICATIONS1. A wiring socket (62, 72) for pluggable control and / or device control modules (32), comprising a first set of electrical connection pieces (41a) to a connector (40a) of a plug-in module, characterized in that it comprises a negative polarity distribution terminal (46a) and in that each of the pieces (41a) of the first set comprises a connection point (C1) for a first interconnection bar (B1) coupled to the negative polarity distribution terminal. 2. The base of claim 1, wherein the negative polarity distribution terminal is carried by a part of the first set. 3. Base according to one of claims 1 and 2, comprising a second set of electrical connection parts (41b) to a connector (40b) of a plug-in module, each of the parts (41b) of the second set comprising a terminal of positive polarity distribution (46b). 4. The base of claim 3, wherein the parts of the first and second set are paired together to form pairs of parts, each pair of parts being associated with a plug-in module and consisting of a part of the first set and of a piece of the second set. The receptacle according to one of claims 1 to 4, further comprising a positive polarity lead terminal (46d) and cable connection terminals (46c) each associated with a conductive piece (41c) including a point. connection terminal (C2) for a second interconnection bar (B2) coupled to the positive polarity supply terminal (46d). The header of claim 5, wherein the positive polarity feed terminal (46d) is carried by a link rod (49) including a connection point for the second interconnect bar (B2). An intelligent electronic device comprising a housing (34) comprising one or more pluggable (32) control and / or appliance control modules and a base (62, 72) according to any one of the preceding claims.