FR2475291A1 - LV multipolar differential protection switch - has spring-mounted contact arms with limited relative rotation and translation - Google Patents

Abstract

The switch comprises a switching bar in the form of a slider carrying four moving contact arms mounted on a spring in an axial opening of the slider. Each contact arm is equipped at one end with a moving contact which co-operates with a fixed contact. The opposite end of the arm is connected electrically to a terminal by a braid and co-operates with a stop before the contacts attain the closed position. A differential current detector is formed by a toroidal transformer for adding the currents of the AC network to be protected, and operates a relay to release the control mechanism when a fault current appears. The release mechanism is fitted with a contact position indicator operated directly by the slider. Economy is achieved by use of two instead of four silver contacts per pole. Voltage drops and the tendency for contacts to stick on short- circuit are reduced.

Description

Multipolar differential switch for low voltage network.

The invention relates to a low-voltage multipole differential switch with molded insulating housing containing - a differential current detector formed by a toroidal transformer for summing the currents of the alternating network to be protected, - a relay supplied by said detector and releasing upon appearance of a differential fault current, the lock of a trigger mechanism with reset command, - a switching bar cooperating with said trigger mechanism and shaped as a slide mounted with limited translation in a breaking chamber during a predetermined stroke between two extreme opening and closing positions of the switch, each pole comprising a movable contact bridge secured to said slide and in electrical connection in the closed position with a pair of connection terminals of said switch.

According to a known device of the kind mentioned, the mobile contact bridge of each pole is arranged as a double break bridge cooperating with two fixed contacts to create two break intervals per pole during the opening stroke of the slide. This type of switching bar requires two pairs of contacts per pole, and it has been found that such an arrangement sometimes caused the contacts to stick when a short-circuit current appears.

The invention aims to avoid the aforementioned drawbacks and to allow the production of an economical differential switch with a pair of contacts per pole allowing a reduction in the voltage drop at each blade.

The differential switch according to the invention is characterized in that each movable bridge is elastically mounted on said slide and comprises at one of its ends a contact pad cooperating with a corresponding fixed contact to define a cut-off interval during said stroke of the slider towards the open position, the other end of said bridge being electrically connected to one of the terminals by a flexible connecting braid arranged opposite the cutoff interval with respect to the direction of movement of the slide.

The advantages of such an arrangement are both economic by using two silver contacts per pole, and technical by reducing voltage drops and the ability to bond contacts on -court- circuit.

According to one embodiment of the invention, the insulating boot of parallelepiped shape is formed by the superposition of a base, an intermediate support block and a shutter cover. The intermediate block serves as a support for all of the electrical components and the trigger mechanism, and has a transverse wall extending parallel to the base of the base to divide the interior of the case into two superimposed compartments, one of which is upper. directed towards the cover for housing a first electrical sub-assembly, the relay and the trigger mechanism, and the other lower of which is formed between said wall and the base for the arrangement of a second electrical sub-assembly, said first and second sub-assemblies being pre-assembled outside the bolt-holder to group the electrical members of the different poles, then positioned and secured respectively on the opposite faces of said wall during mounting of the switch.

According to a characteristic of the invention, the first sub-assembly comprises the slide equipped with contact bridges of the different poles connected to the input terminals by the flexible connection braids, and the second sub-assembly is formed by the differential transformer crossed by conductors of connection of fixed contacts to output terminals.

According to another characteristic of the invention, said intermediate block comprises housings staggered along the opposite lateral sides of the block in the direction of movement of the slide and on either side of the latter, and during the assembly of the 'switch said cage type connection terminals are inserted by vertical sliding respectively from above into the corresponding housings and from below into the opposite housings of the different poles.

According to a development of the invention, the trigger mechanism is equipped with a position indicator of the switch contacts, capable of occupying two distinct positions depending on the position of the switching bar, a first erased position for resetting the corresponding mechanism when the pole contacts are closed, and a second active position for signaling the opening of the contacts.

Other advantages and characteristics will emerge more clearly from the description which follows of an embodiment of the invention, given by way of nonlimiting example and shown in the appended drawings, in which FIG. 1 is a exploded perspective view of the differential switch according to the invention; FIG. 2 shows a plan view of the intermediate support block, the closure cover of the switching chamber being assumed to be removed; FIG. 3 represents a bottom view of the intermediate support block in the mounted position of the differential transformer; Figure 4 is a view similar to that of Figure 2, in the disassembled position of the switching rod; Figure 5 shows an elevational view of the sub-assembly B equipped with the switching bar according to the invention; Figure 6 is a side view of the switching bar; Figures 7a, 7b, 7c are partial schematic views at one pole of the translational travel of the switching rod according to the invention, respectively in the open, intermediate and closed positions of the contacts; Figure 8 is a sectional view along line VIII-VIII of FIG. 2; Figures 9a and 9b show schematic plan views of the control mechanism equipped with a differential trip indicator, respectively in the reset position of reset mechanism and active signaling of the fault; Figures 10 and 11 are views similar to those of Figures 2 and 3, and show the intermediate block of a bipolar switch; Figure 12 is a side view of the bipolar switch equipped with a remote release device; FIG. 13 represents a plan view of a bipolar switch equipped with a sealable locking device for the operating members.

In the figures, a low-voltage differential switch 10 is housed in a case 12 of molded insulating material formed by the superposition of a base 14, an intermediate block 16 for supporting the electrical and mechanical members, and a cover Shutter shutter 12.

The invention is described with reference to a four-pole differential switch 10 connected in a three-phase network with neutral conductor (fig. 1 to 9), but it is obvious that it also applies to a two-pole differential switch used in a single-phase network with neutral (fig.

10 to 12).

In FIGS. 1 to 9, the intermediate insulating block 16 comprises a transverse wall 20, extending parallel to the base of the base 14, and dividing the interior of the housing 10 into two compartments, the upper 22 directed towards the cover 18 for housing a breaking chamber 24, a control mechanism 26 with opening spring and a polarized relay 28, the other 30 lower, formed between the wall 20 and the base 14 for the arrangement of a toroidal differential transformer 32 for summing the currents flowing through the conductors of the switch 10. The detection device of the differential tripping device is constituted by the toroidal transformer 32 whose measurement winding 34 is connected by connecting conductors 36 to the control coil of the relay 28. The movable pallet 38 of the latter cooperates with a locking lever 40 of a lock of the control mechanism 26
Juxtaposed with rotary handle 42 for rearming which can be moved between two extreme closing and opening positions.

Such a differential tripping device is usual and its operation can be summarized by signaling that an excitation of the relay 28 by the transformer 32 occurs during the appearance of a differential current in the conductors crossing the detection toroid, and causes pivoting of the locking lever 40 clockwise (Figure 9b) causing the release of the mechanism 26 lock followed by the automatic release of the switch whose contacts open under the action of the spring d 'opening. The rearming of the lock is effected by pivoting of the lever 42 of the mechanism 26 towards the closed position (fig. 9a) of the contacts.

A device for controlling and testing the operation of the differential protection by the transformer 32 is produced in a conventional manner by a branch circuit comprising in series a test resistor 44 and a test switch (not shown) with a button test 46. A depression of the test button 46 against its return spring causes the closing of the test switch generating an artificial differential current detected by the transformer 32, which causes the opening of the switch 10. The test resistor 44 is housed in the lower compartment 30 inside a notch 48 formed in the intermediate block 16 (fig. 3). The test button 46 protrudes from the cover 18 through a square window located near a circular hole 50 for the introduction of the control handle 42. This latter includes an operating pin 52 engaged in an orifice 54 of the mechanism 26 (fig. 1).

The differential trigger relay 28 and the associated control mechanism 26 are arranged in the upper compartment 24 on a common fixed plate 56 disposed on a cover 58 insulating shutter of the breaking chamber 24. A switching bar 60 in the form of Insulating slide is mounted in limited translation in the chamber 24 during a predetermined stroke between two extreme positions of closing and opening of the switch. The displacement in translation of the bar 60 is effected by means of a transmission finger 62 of the mechanism 26 cooperating by interlocking with an actuating orifice 64 of the bar 60. The transmission finger 62 is guided during said stroke in a slot 66 oblong of the mechanism 26, extending in the longitudinal direction of the sliding bar 60.

The switching bar 60 is equipped with four contact bridges 68 of identical structures, staggered at regular intervals along the longitudinal direction in housings 70 rectangular to the axis of the bar 60.

The rectilinear contact bridge 68 of each pole extends perpendicular to the bar 60 and passes through the corresponding housing 70 while being held in place by a contact pressure spring 72, inserted between the middle part of the bridge 68 and the bottom of the housing 70 The breaking chamber 24 is subdivided by dividing partitions 74 (fig. 4) into four juxtaposed spaces 76 staggered along the bar 60 and serving as housing for the contact bridges 68 of the different poles. Each partition 74 perpendicular to the wall 20 molding v4ent with the block 16 and has a central groove for the housing of the sliding bar 60. One end of each bridge 68 carries a contact pad constituting the movable contact 78 coming into engagement in the closed position of the switch with a fixed contact 80 secured to the corresponding partition 74. During the translation of the bar 60 towards the open position, the cut-off interval 82 formed between the separate contacts 80, 78 of each pole, extends in the longitudinal direction along the same side of the bar 60 to the interior of the corresponding housing 70. Opposite the cut-off interval 82 with respect to the axis of the bar 60 is the other end of the bridge 68 electrically connected by a flexible connecting braid 86 to a pad 87 conducting a connection terminal 88 of the corresponding pole.

The area 87 of each terminal 88 is bent in a U, and mounted captive in a conductive cage provided with a fixing screw 90 bearing on the base of the area 87 which at the same time serves as a clamping plate for the electrical conductor held in window of terminal 88.

Each connection terminal 88 remains integral with the corresponding contact bridge 68, and is threaded by sliding into a housing 92 formed in the wall 20 of the intermediate block 16.

Each fixed contact 80 is carried by a connection strip 94 which crosses the wall 20 and then extends transversely in the lower compartment 30. The toroid of the differential transformer 32 is crossed by primary conductors 96 connected respectively by their ends opposite to the bars 94 and to areas 97 of connection terminals 98 of the different poles. Each terminal 98 of the cage type is inserted into a housing 100 of the intermediate block 16, and the corresponding pad 97 is shaped as a double square, the middle branch of which is arranged in the cage and serves as a clamping plate.

The housings 92, 100 of the terminals 88, 98 for supplying current extend along two opposite sides of the intermediate block 16 on either side of the switching rod 60.

The terminals 88, 98 of the same pole are aligned in a direction perpendicular to the bar 60 and parallel to the corresponding contact bridge 68. The cover 18 of the bolt case 12 is provided with orifices 102 for access to the terminal fixing screws 88, 98.

Figures 7a, 7b and 7c schematically show the operation of the switching bar 60 during its translational travel at a pole of the switch.

The contact bridge 68 is resiliently mounted in the housing 70 of the slide in the open position of the contacts 78, 80 (fig. 7a). During the closing stroke of the slide actuated in the direction of arrow F by the control mechanism 26, the heel of the bridge 68 opposite the contact 78 abuts in an intermediate position against a fixed shoulder 104 of the wall 74 of the insulating block 16 before the contacts 78, 80 are closed (fig. 7b). The continued closing stroke of the switching bar 60 then causes the contacts to close (FIG. 7c) and a correct contact pressure by compression of the spring 72 associated with the bridge 68.

The intermediate block 16 serves as a support for two pre-assembled sub-assemblies A and B grouping together the electrical members of the different pay countries. The first sub-assembly A (fig. 1) is formed by the connection bars 94 of the fixed contacts 80, the differential transformer 32 associated with the primary conductors 96 and the connection terminals 98. The second sub-assembly B (fig. 1 and 5) comprises the switching bar 60 fitted with bridges 68 connected to the terminals 88 by the flexible braids 86. The two sub-assemblies A and
B are respectively positioned on the lower and upper faces of the wall 20 of the block 16 after insertion of the sliding terminals 98, 88 in the appropriate housings 100, 92. The breaking chamber 24 is then covered by the cover 58 provided with a light 106 for the passage of the transmission finger 62 during the mounting of the mechanism 26 and of the relay 28. The intermediate block 16 fully wired is then positioned by the underside of the wall 22 in guide grooves 108 of the base 14; the cover 18 covers the bodies of the upper compartment 22 by resting on the upper face of the wall 22 after fitting the lever 42 and the test button 46. The final assembly of the housing 12 of the switch 10 takes place at by means of two fixing screws passing through aligned holes in the base 14, the intermediate block 16 and the cover 18.

The assembly of the block 16 on the base 14 is effected by means of two hollow rivets taking the place of fixing elements of the switch 10 when the latter is mounted on a panel.

According to a development of the invention, illustrated in FIGS. 9a and 9b, the differential switch is equipped with a position indicator 110 of the contacts capable of occupying two distinct positions depending on the position of the switching bar 64, a first position of resetting of the control mechanism 26 (fig. 9a) corresponding to the closing of the contacts 78, 80 of the poles of the switch, and a second position for signaling the opening of the contacts 78, 80 (fig. 9b). The position indicator 110 comprises a bent lever 112, articulated on a pivot 114 subject to the upper plate 116 of the mechanism 26 located opposite the cover 18. One end of the pivoting signaling lever 112 comprises a hole 118 oblong in which engages the transmission finger 62 of the control mechanism 26. At the opposite end of the lever 112 is associated a marking 0 signaling. The upper 116 and lower 56 plates of the mechanism 26 are each provided with a notch 120 revealing a fixed mark I secured to the cover 58 of the intermediate block 16.

The reference I is located opposite a window 122 formed in the cover 18 made of opaque insulating material.

The operation of the position indicator 110 is as follows
In the armed position of the mechanism 26 and of the closing of the contacts 78, 80 (fig. 9a) of the switch, the signaling lever 112 is in the first erased position allowing the display of the mark I through the window 122 of the cover 18 .

The opening of the contacts by manual action or on differential actuation causes the translation of the transmission finger 62 in the slot 66 and the pivoting of the signaling lever 112 anticlockwise to the second active position signaling the opening of the switch. The reference I is hidden by the reference 0, and the latter is visible through the window 122. The user is then certain that the contacts 78, 80 of the poles are open.

The three operations for resetting the mechanism 26, for closing the contacts of the switch 10 and for returning the position indicator 110 to the rest position are carried out by a simple actuation of the pivoting lever 42 towards the lowered closed position ( fig. 9a).

Figures 10 to 12 show the embodiment of a bipolar switch 130 from the four-pole version described above. The same references designate parts which are identical or similar to those of FIGS. 1 to 9. The standard four-pole switch 10 is advantageously used after having removed two strips 94 for connecting fixed contacts 80, and two movable contacts 68 with the associated braids 86. The corresponding terminals 88 and 98 are replaced by shutters 132.

A device for locking the operating members (FIGS. 12 and 13), in particular the handle 42 and the test button 46, comprises a seal 134 which can be sealed, formed by a pre-cut polycarbonate plate arranged on the cover 18.

The lever 42 can thus be locked in the two engaged and triggered positions.

According to another development of the invention, the four-pole 10 and two-pole switches 130 can be equipped with a remote tripping device. By way of example, this remote triggering device for the bipolar switch 130 will be described (see FIGS. 11 and 12). I1 has a connector 136 integrated into the intermediate block 16 and cooperating with a plug-in socket 138 for remote triggering. The electrical connection of the connector 136 is made by two connecting wires, one of which 140 is connected to one phase and the other of which 142 is connected to the other phase by means of a tertiary winding 144 of the transformer differential 32.

The invention is of course by no means limited to the mode of implementation more particularly described and shown in the accompanying drawings, but it extends quite the contrary to any variant remaining within the framework of electrotechnical equivalences.

Claims (10)

Claims 1. Low-voltage multipolar differential switch with molded insulating housing (12) containing - a differential current detector formed by a toroidal transformer (32) for summing the currents of the alternating network to be protected, - a relay (28) supplied by said detector and releasing upon the appearance of a differential fault current, the lock of a trigger mechanism (26) with reset command, - a switching bar (60) cooperating with said trigger mechanism (26). slide mounted in limited translation in a breaking chamber (24) during a predetermined stroke between two extreme positions of opening and closing of the switch, each polished comprising a movable contact bridge (68) integral with said slide (60) and in electrical connection in the closed position with a pair of terminals (88, 98) for connection of said switch, characterized in that each movable bridge (68) is resiliently mounted on said slide (60) and comprises at one dense end a contact pad (78) cooperating with a corresponding fixed contact (80) to define a cut-off interval (82) during said stroke of the slide towards the open position, l the other end of said bridge being electrically connected to one (88) of the terminals by a flexible braid (86) arranged opposite the cut-off interval (82) relative to the direction of movement of the slide ( 60). 2. Multipolar differential switch according to claim 1, in which the bolt bolt (12) parallelepiped in insulating material is formed by the superposition of a base (14) of an intermediate block (16) of support and of a shutter cover (18), characterized in that said intermediate block (16) serves as a support for all of the electrical members and for the trigger mechanism (26), and comprises a transverse wall (20) extending parallel to the base of the base (14) to divide the interior of the box into two superimposed compartments (22, 30), one of which (22) upper directed towards the cover (18) for housing a first electrical sub-assembly B, of the relay (28) and of the triggering mechanism (26), and the other (30) lower of which is formed between said wall (20) and the base (14) for the arrangement of a second electrical sub-assembly A, said first and second subassemblies being preassembled outside the case (12) to group the electrical members of the different nts poles, then positioned and secured respectively on the opposite faces of said wall (20) when mounting the switch. 3. Multipolar differential switch according to claim 2, characterized in that the first sub-assembly B comprises the slide (60) equipped with contact bridges (68) of the different poles connected to the input terminals (88) by the braids (86) flexible connection, and that the second sub-assembly A is formed by the differential transformer (32) through which conductors (96) for connection of the fixed contacts (80) to the output terminals (98). 4. Multipolar differential switch according to claim 3, characterized in that said intermediate block (16) comprises housings (92, 100) staggered along the opposite lateral sides of the block (16) in the direction of movement of the slide (60) and on either side of the latter, and that during the assembly of the switch said connection terminals (88, 98) of the cage type are inserted by vertical sliding respectively from above into the housings (92) corresponding and from below in the housings (100) opposite the different poles. 5. Multipolar differential switch according to claim 4, characterized in that in each loop, the flexible braid (86) and the connection conductor (96) are respectively connected to pads (87, 97) conducting the terminals ( 88, 98) opposite, each pad (87, 97) being mounted captive in the cage of the corresponding terminal (88, 98) and cooperating with a fixing member to play at the same time the role of clamping plate of the connection conductors said pole of the switch. 6. Multipolar differential switch according to one of the preceding claims 2 to 5, in which said cut-out chamber (24) for housing the slide (60) is subdivided by dividing partitions (74) integral with the intermediate block (16), a plurality of juxtaposed spaces (76) staggered along the slide (60) and serving as housing for the contact bridges (68) of the different blades, characterized in that each partition (74) inserted in insulating material comes from molding with the intermediate block (16) extending perpendicular to the wall (20) in the upper compartment (22), and that each contact bridge (68) is resiliently mounted in an axial window (70) of the slide (60) such that the heel of the bridge (68) opposite the movable contact (78) comes into engagement in an intermediate position of the closing stroke of the slide against a fixed shoulder (104) of the partition (74) of the corresponding space (76) before contact closure s (78, 80). 7. Multipolar differential switch according to claim 6, characterized in that each contact bridge (68) passes perpendicularly through the corresponding window (70) of the slide (60) and that a compression spring (72) interposed between the part median of said bridge (68) and one of the bottoms of the window (70) is compressed between said intermediate and closing positions of the slide (60) to ensure an appropriate contact pressure. 8. Multipolar differential switch according to one of claims 1 to 7, characterized in that the trigger mechanism (26) is equipped with a contact position indicator (110) capable of occupying two distinct positions depending on the position of the switching bar (60), a first reset reset position of the mechanism (26) corresponding to the closing of the contacts (78, 80) of the poles, and a second active position corresponding to the opening of the contacts. 9. Multipolar differential switch according to claim 8, characterized in that said position indicator (110) of the contacts comprises an elbow lever (112) articulated on a pivot (114) secured to the upper plate (116) of the mechanism (26 ) located opposite the cover (18), one end of said lever (112) being provided with an oblong hole (118) in which engages a transmission finger (62) of the mechanism (26), and l the opposite end being associated with a marker indicating the open position of the contacts, visible through a window (122) of the cover (18) in said active position. 10. Multipolar differential switch according to claim 9, characterized in that the said trigger mechanism (26) cooperates with a control handle (42), the actuation of which towards the closed position simultaneously resets the mechanism (26), the closing the contacts (78, 80) of the various poles and returning the position indicator (110) to the erased position of rest.