FR2829870A1 - Fused circuit isolator, moves from closed position to open position giving access to fuse, with prompt actuation of safety cut-out control - Google Patents

Abstract

The fuse carrier moves from a first, closed position to a second, open position. A lever (20) extension (205, 206) is located in the path of one of the components (43). The fuse (5) is connected to jaws of the isolator (1) in the closed position, and can be extracted from the fuse carrier (4) in the open position. The lever is moved by interaction between the extension and the carrier, as change over occurs. The lever actuates the preliminary cut-out control (15)

Description

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 The invention relates to a fuse disconnect.

 In the field of protection of electrical installations against overcurrent, it is known to use a fuse housed in a movable fuse holder relative to the body of a disconnector, the fuse can cooperate with jaws connected to conductors upstream and downstream. It is also known to equip such a disconnector with an auxiliary control element, such as a switch, to limit the risk of handling under load of such a disconnector. Indeed, in the case of a disconnector that can be integrated into a supply line of a load at 800 volts and 150 amperes, the fuse holder should not be manipulated when such a difference in potential and such intensity are applied across the disconnector, otherwise a danger of creating a high energy arc is present. It is therefore necessary for a person operating on a power line equipped with such a disconnector to isolate the line before handling the fuse holder.

 This concept of safety is well understood by electricians. It is possible, however, that a person not informed of an intervention occurring on a power line inadvertently closes a power contactor of this line, hence a danger for the person who intervenes. That is why it is known to integrate in an isolator an auxiliary switch that sends a control signal to a switch or a contactor to prevent untimely closing of a line.

 Such a switch should allow, among other things, to detect the imminence of the fuse extraction of the jaws with which it cooperates, that is to say the beginning of the fuse release movement.

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 The function stated above must be effective early enough to prevent the fuse from being extracted from the jaws while still energized. This is why the IEC 60947-1 standard provides for a minimum time interval of 20 milliseconds between the actuation of an auxiliary switch and the effective extraction of the fuse from its jaws, in order to take into account the time transmission of information, from the auxiliary element to the circuit breaker or contactor, and the response time of this circuit breaker or contactor.

 In some known systems, a lever is moved by the fuse when moving the fuse holder in a fuse extraction direction, in order to control an auxiliary switch. This system is not entirely satisfactory insofar as, if the fuse holder is maneuvered quickly, the auxiliary control element is controlled by the lever about 4 milliseconds before the effective extraction of the fuse with respect to its jaws, which is insufficient under the above-mentioned standard.

 It is this problem that the invention intends to respond more particularly by providing a disconnector whose safety is greatly improved over known devices, while it remains easy to maneuver, reliable, and acceptable cost.

 In this spirit, the invention relates to a fuse switch comprising a body, a fuse holder movable relative to the body and extending by a front-end gripper, a movable lever, depending on the presence and / or the state of a fuse in the fuse holder and / or the position of the fuse holder, and a pre-cutoff control element of an electrical installation. This isolator is characterized in that the lever is provided with at least one extension disposed on the

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 trajectory of a part of the fuse holder when it is moved from a first position, or closed position, in which the fuse is connected to jaws of the disconnector, to a second position, or open position, in which the fuse can be removed from the fuse holder, the lever being movable by interaction between the aforementioned extension and the fuse holder which passes from the first to the second position, so that the lever actuates the pre-cut control element .

 Thanks to the invention, the movement of the fuse holder is detected as soon as it is initialized, which makes it possible to anticipate the movement of the fuse with respect to the jaws and to lengthen the time interval between the triggering of the pre-control element. cutting and effective extraction of the fuse with respect to the jaws. In fact, in known systems, the manufacturing tolerances of the plastic elements and the metal jaws are such that it can not be guaranteed that the fuse and the lever will actually interact until the fuseholder has pivoted about 100 while, thanks to the invention, the pre-cutting control element is actuated safely as soon as the gripper of the fuse holder has rotated from 3 to 40.

 According to advantageous but non-mandatory aspects of the invention, the disconnector incorporates one or more of the following characteristics: the lever is articulated about a fixed axis relative to the body and is subjected, when the fuseholder is in the first position, to an elastic force tending to move away from the pre-cutting control element.

 - The fuse holder is articulated about a fixed axis relative to the body, this fuse holder passing from the

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 first to the second position by pivoting about this axis.

 - The pre-cut control element is a micro-contact whose pallet forms an actuating part. In this case, the lever is advantageously provided with a head adapted to bear against this pallet according to the position of the lever while the aforementioned extension extends, with respect to this head, substantially opposite the a zone of articulation of the lever on the body of the disconnector. It can be provided that the aforementioned extension extends, with respect to a central axis of the main part of the lever, substantially opposite to the aforementioned head and forms a ramp inclined with respect to this axis, this ramp being adapted to contact and slide against part of the fuse holder. This extension can form a surface, extending the inclined ramp able to come into contact with and slide against the aforementioned part of the fuse holder, after the inclined ramp is cleared with respect to this part, during the passage of the fuse holder from its first to his second position.

 - The fuse holder forms a ramp capable of exerting on the extension of the lever a force of movement of the lever. In this case, this ramp is advantageously arranged close to the gripper, so that its movement has a large amplitude from the beginning of the movement of the fuse holder.

 - The lever carries a leg adapted to undergo a force of movement of the lever exerted by a firing pin or a fuse terminal. This tab makes it possible, in particular, to react to a bursting of the fuse and to maintain the pre-cut control element in an active configuration, even when the extension of the lever no longer interacts with the fuse holder.

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The invention will be better understood and other advantages thereof will appear more clearly in the light of the following description of an embodiment of a disconnector according to its principle. given only by way of example and with reference to the accompanying drawings in which: - Figure 1 is a perspective view of a disconnector according to the invention; - Figure 2 is a front view of the disconnector of Figure 1; - Figure 3 is a section along the line IIIIII in Figure 1; - Figure 4 is a view similar to Figure 3 at the beginning of an opening of the disconnector; - Figure 5 is a view similar to Figure 3 in a subsequent step of opening the disconnector; FIG. 6 is a view similar to FIG. 3 at the end of the opening of the disconnector and
Figure 7 is a perspective view of the operating lever of the disconnector of Figures 1 to 6.

13 et une vis de blocage 12a, 13a. The disconnector 1 shown in the figures comprises a body 2 intended to be mounted on a rail 3, for example by snapping. The body 2 defines a receiving volume of a fuse holder 4 intended to receive a fuse 5, between an upstream jaw 6 and a downstream jaw 7, each electrically connected to a zone 8 or 9 for receiving and immobilizing the fuse. bare end of a conductive cable 10 or 11, each zone comprising a stirrup 12 or

13 and a locking screw 12a, 13a.

 The fuse holder 4 is articulated on the body 2 about an axis X4 generally perpendicular to the plane of FIG. 3. The fuse holder 4 comprises a sleeve 41 which forms a substantially cylindrical volume for receiving the fuse 5.

Y-Y 'is the geometric axis of the sleeve 41.

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 fuse 4 also comprises a handle 42 which forms a gripping member for tilting the fuse holder 4 from the position of Figures 1 to 3 to that of Figure 6, through the positions of Figures 4 and 5, and vice versa. The handle 42 is located on the front face of the disconnector 1.

câbles conducteurs 16a, 16b et 16Q à un circuit non représenté de commande de l'alimentation en tension du sectionneur 1. On the body 2 is mounted a housing 14 in which is disposed a micro-contact 15 of size V4 connected by three

conductive cables 16a, 16b and 16q to a circuit not shown for controlling the voltage supply of the disconnector 1.

 A lever 20, more particularly visible in Figure 7, is articulated on the body 2 about an axis X20 generally parallel to the axis X4. The lever 20 is provided with a head 201 intended to interact, in certain configurations of use of the disconnector 1, with the pallet 15a of the micro-contact 15.

 A metal shaft 21 materializes the axis X20 and is surrounded by a torsion spring 22, a first end 221 is intended to bear against an internal rib 2a of the body 2, while its opposite end 222 is provided to bear against the terminal 51 of the fuse 5 in place in the jaw 6, in the position of Figures 1 to 3.

 Due to its cooperation with the body 2 and the fuse 5, the spring 22 exerts on the lever 20 a tilting force Fi towards the fuse 5, that is to say a force tending to pivot the lever 20 in the trigonometric direction in Figure 3, around the axis Xzo.

 The spring 22 is positioned so that, when its end 222 does not interact with the terminal 51 of the fuse 5, it exerts on the lever 20 a force F'1 opposed to the effort Fi and having a tendency to tilt the

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 lever 20 in the opposite trigonometric direction in FIG.

 The lever 20 is provided with a tab 202 arranged facing the terminal 51 of the fuse 5 in the configuration of Figure 3 and, in particular, a striker 52 integrated in this terminal. Thus, in the event of bursting of the fuse 5, the striker 52 moves in the direction of the arrow F3 in FIG. 3, which has the effect of causing the lever 20 to pivot about the axis Xso in the opposite trigonometrical direction. in this figure.

 If the lever 20 pivots in the opposite trigonometric direction in FIG. 3 from the position shown, the head 201 moves the pallet 15a of the microswitch 15, which has the effect of disconnecting the power supply of the disconnector 1 by virtue of the activation of a control unit not shown, the corresponding signal being transmitted by the cables 16a to 16c.

 X-X 'is a median axis of the main portion 203 of the lever 20 situated between its hinge zone 204 on the shaft 21 and the head 201. Opposite the head 201 with respect to the X axis -X ', the lever 20 carries a tab 205 extending by a tab 206 which extends opposite the zone 204 relative to the head 201.

 The tab 205 forms a surface 207 inclined with respect to the axis X-X 'of an angle α whose value is between 400 and 600, preferably of the order of 500.

The tongue 206 is defined between an upper surface 208 and a lower surface 209, these surfaces being less inclined relative to the axis XX 'than the surface 207.

 In the closed position shown in FIG. 3, position in which the terminals 51 and 53 of the fuse 5 are in place in the jaws 6 and 7, the tab 206 is engaged in front of a step 43 of the fuse holder 4.

This walk extends a plateau 44 globally

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 perpendicular to the axis Y-Y 'which coincides with the central axis of the fuse 5 in place in the fuse holder 4.

 In closed position of the fuse holder 4, the elements 205 and 206 extend between the step 43 and the handle 42. More specifically, the tab 205 rests by its surface 207 against a truncated front surface 431 of the step 43, the surfaces 207 and 431 being generally parallel to each other. In this position, the surface 209 is generally parallel to the upper surface 441 of the plate 44, the surfaces 209 and 441 not being in contact.

 Alternatively, the tab 205 and the step 43 may be spaced apart from each other, the surfaces 207 and 431 then not being in contact.

câbles 16a à 16c. When it is desired to open the disconnector 1, that is to say rotate the fuse holder 4 in the trigonometric direction in Figures 4 to 6, it exerts on the handle 42 a force F4 to lower the handle. Due to the beginning of the movement of the handle 42, the step 43 exerts on the lug 205 a thrust force Fg directed upwards and to the left in FIGS. 3 and 4. This has the effect of causing the head 201 to apply on the pallet 15a of the micro-contact 15 a force F6 activation of the micro-contact, which is detected by the control unit connected to the

cables 16a to 16c.

 Thus, thanks to the tab 205 and the geometry of the fuse holder 4, the opening movement of the fuse holder is detected from its beginning, that is to say after a few degrees, even if the fuse 5 does not. has not yet interacted with the leg 202 of the lever 20.

 When the pivoting movement of the fuse holder 4 is prolonged, the tab 43 comes into contact with the surface 209 of the tongue 206 and thus keeps the head 201 bearing against the pallet 15a which, again, can be detected

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 by a control unit connected to the cable 16a to 16c, to the extent that the effort Fs is maintained.

manchon 41, comme représenté par la flèche F7. Dans cette position, l'effort F'i garantit que le micro-contact 15 demeure activé. It is then possible to reach the position of FIG. 6 where the fuse 5 can be easily extracted from the

sleeve 41, as represented by the arrow F7. In this position, the effort F'i ensures that the micro-contact 15 remains activated.

 In view of the above, the activation of the micro-contact 15 is possible from the beginning of the pivoting movement of the fuse holder 4, thanks to the detection made by the extensions of the lever 20, constituted by the elements 205 and 206. This activation is maintained during the movement of the fuse holder 4 by the interaction of the step 43 with the tongue 206, then the fuse 5 with the tab 202.

Claims (10)

1. A fuse disconnect comprising a body, a fuse holder movable relative to said body and extending by a front-end gripper, a movable lever according to the presence and / or state of a fuse in said door -fuse and / or the position of said fuse holder, and a safety pre-cut control element of an electrical installation, characterized in that said lever (20) is provided with at least one extension (205,206) disposed on the trajectory of a part (43) of said fuse holder when it is moved from a first position (FIG. 3), or closed position, wherein said fuse (5) is connected to jaws (6, 7) said switch (1), to a second position, or open position (Fig. 6), wherein

 said fuse can be extracted (F7) from said fuse holder (4), said lever being movable by interaction (fis) between said extension and said fuse holder passing from said first to said second position, so that said lever operates ( F6) said pre-cut control element (15).  2. Disconnector according to claim 1, characterized in that said lever (20) is articulated about an axis (X20) fixed relative to said body (2) and is subjected, when said fuse holder (4) is in said first position, with an elastic force (Fi) tending to move it away from said pre-cut control element (15).  3. Disconnector according to one of the preceding claims, characterized in that said fuse holder (4) is articulated about an axis (X4) fixed relative to said body (2), said fuse holder passing from said first <Desc / Clms Page number 11>  (Figure 3) to said second (Figure 6) position by pivoting about said axis.  4. Disconnector according to one of the preceding claims, characterized in that said pre-cut control element is a micro-contact (15) whose pallet (15a) forms an actuating portion.  5. Disconnector according to claim 4, characterized in that said lever (20) is provided with a head (201) adapted to bear (F6) against said pallet according to the position of said lever and in that said extension (205,206) extends, relative to said head substantially opposite an area (204) of articulation of said lever on said body (2).  6. Disconnector according to claim 5, characterized in that said extension (205,206) extends, relative to a central axis (X-X ') of the main part (203) of said lever (20), substantially to the opposite said head (201) and forms a ramp (207) inclined (a) relative to said axis and adapted to come into contact and slide against a portion (43) of said fuse holder (4).  7. Disconnector according to claim 6, characterized in that said extension (205,206) forms a surface (209), extending said inclined ramp (207) and adapted to come into contact and slide against said portion (43) of said fuse holder (4) after said inclined ramp is disengaged from said portion, when passing said fuse holder from said first (Figure 3) to said second (Figure 6) position.  8. Disconnector according to one of the preceding claims, characterized in that said fuse holder (4) forms a ramp (431) adapted to exert on said extension (205,206) a force (fis) of displacement of said lever (20). <Desc / Clms Page number 12>  9. Disconnector according to claim 9, characterized in that said ramp (431) is formed near said gripper (42).  10. Disconnector according to one of the preceding claims, characterized in that said lever (20) carries a tab (202) adapted to undergo a displacement force of said lever exerted by a striker (52) or a terminal (51) of said fuse (5).