FR2558303A1 - Stand-alone device for re-engaging a domestic electric circuit breaker. - Google Patents

Abstract

This device comprises a casing 4 which can be adjoined to the circuit breaker 3 and which contains an electric reducing motor connected to a stand-alone energy source via a supply block with timer, an actuating lever 7, one of whose ends is rotationally and eccentrically linked to a plate 9 locked on the output shaft 10 of the reducing motor, whereas the other end, projecting from the casing 4 and arranged within the operating path of the reset member 6 of the circuit breaker, is arranged so as to cooperate with this member, and a microcontactor 22a carried by the actuating lever 7 and whose actuating tab 22b can detect the breakage of circuit and can trigger operation of the device. It is applicable to circuit breakers whose resetting is ensured by a rocking lever, push button or rotary button.

Description

"Autonomous device to reset a domestic electric circuit breaker",
The invention relates to an autonomous device for resetting a domestic electric circuit breaker.

 The domestic circuit breaker enters into operation and interrupts the electrical supply circuit of a domestic distribution network following either an overheating or an overvoltage. To close the supply circuit again, simply activate the circuit breaker reset member. If the cause of the trip has not stopped, the circuit breaker returns to the cut-off position, thus informing that it is necessary to wait a time before repeating the operation or that the distribution circuit must be examined.

 When the circuit breaker originates from an external overvoltage, for example consecutive to a thunderstorm or other, and the occupant of the room is absent, the circuit breaker can only be reset when the occupant returns. This results in an absence of electrical supply to devices that operate permanently, such as a refrigerator, a boiler room and above all a freezer and aquarium, which cannot withstand more than 12 hours without power. If this interruption continues beyond the above period, the content of the two devices is lost.

 The present invention aims to provide an autonomous device which overcomes these drawbacks and ensures, in the absence of any human intervention, the automatic reset of a circuit breaker.

 To this end, this device comprises a box which can be attached to the circuit breaker and contains an electric gearmotor connected to an autonomous energy source through a power supply unit with time delay, an actuation lever, one of the ends of which is linked in rotation with eccentricity to a plate wedged on the output shaft of said gearmotor, while the other end, projecting from the housing and arranged along the operating path of the reset member, is arranged to cooperate with this member, and a microswitch carried by the actuating lever and the tongue of which is capable of detecting disconnection and of triggering the operation of the device.

 Thus, when this device is in the standby state and the circuit breaker cuts the electrical circuit on which it is arranged, the position 5n-ication of the reset member is detected by the tab of the microswitch which activates the device.

Immediately or after a certain time determined by the time delay, the gearmotor is supplied. By rotating the plate, it causes the movement of the actuating lever. During this movement, the end of the lever cooperates with the reset member of the circuit breaker to reset the latter Whether the circuit breaker is reset or not, the actuation lever returns to the standby position and remains in this position until a new circuit breaker or, if the circuit breaker has not reset, until the gearmotor is again supplied by the power supply unit under timer control. This timer, which controls 1 supply of the gearmotor only within a delay between one and several hours after the first reset, avoids successive rearmings which can lead to deterioration of the supply circuit and, in particular, allows, when the overvoltage is outside the domestic supply circuit, to wait for this overvoltage has disappeared to ensure a final reset.

 Other characteristics and advantages will emerge from the following description with reference to the appended schematic drawings showing, by way of non-limiting examples, two embodiments of this device.

Figures 1 and 2 are side elevation views in partial section showing a first embodiment of the device in the case of its application to a circuit breaker with reset lever, respectively, in the standby position and at the end of reset
Figure 3 is a plan view from above and in cross section showing in more detail the elements arranged in the housing
Figures 4 and 5 are side views in elevation with partial section showing another embodiment of this device in the case of its application to a reset push button circuit breaker with the lever respectively in the awaited position and at the end reset.

 In these drawings (2) denotes an electrical panel carrying a circuit breaker (3) and (4) the box of the device according to the invention, box which, as shown in FIG. 3, is fixed for example by brackets (5) to the table ( 2). This box is attached to the top of the circuit breaker (3) and protrudes in front of the latter.

 In the embodiment shown in Figures 1 to 3, the circuit breaker (3) is provided with an oscillating reset lever (6). The device comprises an actuating lever which, generally designated by (7), is disposed substantially vertically in front of the circuit breaker and is articulated by its upper end on an axis (8) wedged with eccentricity on a plate (9). As shown in Figure 3, this plate is itself wedged on the output shaft (10) of a geared motor (12). The latter is supplied through a power supply (13) by an autonomous energy source (14) and in particular by a battery. The power supply unit is connected by a circuit (15) to an on-off button (16) and, by a circuit (17), to an indicator light (18) .The lever (7) which crosses the housing by a slot (19) has, at its lower end, a hook-shaped part (20) open upwards.

In its central part, this lever comprises a housing (7a) for the body (22a) of a microswitch whose tongue (22b) projects towards the rear of the lever (7) passing through an opening (7b) of this lever. The distance (d) shown in FIG. 2, between the bottom of the hook (20) and the end of the tongue (22b) at rest is less than the vertical path (D), shown in FIG. 1, from the end of the lever. reset (6).

 In the rest position, the actuation lever (7) is in bottom dead center, as shown in Figure 1, and is arranged so that the tongue (22b) is supported on top of the end of the reset lever (6) of the circuit breaker (3).

 When the occupant of the room, equipped with the device according to the invention, is absent for a period of more than 2 hours, he puts the device according to the invention in standby state by actuating the on-off button (16). If during this absence, the circuit breaker operates, the tilting of its reset lever (6) causes the modification of the position of the tongue (22) of the microswitch (22a) and, consequently, the modification of the state of the electrical circuit. (23) on which this microswitch is disposed. The power supply (13) then controls the operation of the geared motor (12) and the rotation on a turn of the plate (9). The latter then pivots in the direction of the arrow (24) in FIG. 1 by vertically moving the actuation lever (7) in the direction of the arrow (25). During this movement, the hook-shaped part (20) of the lever (7) meets the lower end of the cocking lever (6) as shown in phantom in Figure 1, and pulls this end until the lever (6) returns to its reset position corresponding substantially to the top dead center of the movement of the lever (7) as shown in FIG. 2. It should be noted that if the reset does not take place, the reset lever (6) can return by itself to its lower position by throwing the lower end of the lever (7) forward which has not yet had time to return to its bottom dead center. Under these conditions, when the lever ( 7) returns to bottom dead center, its sloping face (7c) allows it to move forward towards the front to escape from the lever before returning to pick it.

 As soon as the circuit breaker is reset, that is to say that its lever (6) occupies the position shown in Figure 1, pressing the tab (22b) on this lever cuts the circuit (23) and puts the device back in standby state. Simultaneously the power supply unit (13) controls the supply of the indicator light (18? So that the occupant of the room knows on his return that the device has worked.

 On the other hand, if the reset was not ensured on the first operation, the device remains in standby state for a duration which is determined by an adjustable time delay by means of a potentiometer (26) associated with the power supply unit ( 13). This time delay, which can extend over a time interval ranging from 3 hours to 6 hours, avoids untimely resetting without success and any deterioration of the local supply circuit.

 Preferably, to save the energy of the battery (14), the indicator light (18) is not put into operation when the circuit breaker is not reset.

 I1 emerges from the above that this device, completely autonomous with respect to the circuit breaker and not preventing its normal operation, can, when it is put into operation, ensure its resetting by operating in adjustable time intervals and thus avoid the deterioration of the contents of devices requiring permanent food, such as freezers or aquariums.

 The embodiment shown in Figures 4 and 5 differs from the previous one by the form of lever (7) which is adapted to one arming member of the circuit breaker (3), member constituted by a push button (30). The lever (7) is therefore articulated substantially in its middle around a horizontal axis (32) carried by a clevis (33) projecting from the S the lower part of the housing (4). At its upper end, this lever comprises a longitudinal slot (34) whose edges coent with the lug (8) of the plate (9) linked to the gearmotor. At its lower end, this lever (7) is provided with a support button (35) projecting rearward towards the reset button (30).

This button is composed of a head and a threaded rod screwed into the end of the lever (7) so as to be able to adjust the point of contact with the button (30) of the circuit breaker. The lever (7) has an interior housing (36) for the body (37a) of a microswitch whose tongue (37b) passes through an opening (38) of the lever and hangs downwards from the rear of the lever. The end of this tab is disposed between the push button (30) and the press button (35) and so as to be in the path of triggering of this push button when the lever is in the waiting position, as represen - tee in Figure 4, position in which it is remote from this button.

 With this device which, moreover, is in all respects similar to that described with reference to FIGS. 1 to 3, the tripping of the circuit breaker (3) causes the displacement of its push button (30) which comes into the position shown in phantom lines. Figure o.

During this movement, the front end of the push button meets the lower end of the tongue (37b) and causes the movement of this tongue. As a result, the microswitch (37a) is actuated and controls the operation, through the power supply (13), of the geared motor (12). When the plate (9) rotates in the direction of the arrow (24) in FIG. 4, the lower end of the lever (7) moves in the direction of the arrow (40) in FIG. 4. The key d 'support (35) thus successively meets the end of the tongue (37b) then the push button which it tends to penetrate into the circuit breaker until resetting. Whether this takes place or not, the rotation of the plate (9) returns the lever (7) to its; starting position, as shown in Figure 4. If the reclosing has been carried out, the tongue (37b) returns by elasticity to its initial position, as shown in Figure 4, and thus cuts the circuit of the block (13) which goes to the standby state. On the other hand, if the circuit breaker has not reset and as in the previous embodiment, the power supply (13) waits for the end of the delay
time delay before ordering a new resetting operation
Its (hemOnt.

 Of course, the invention is not limited to the sole embodiments which have been described above, by way of examples, but on the contrary embraces all the variant embodiments comprising equivalent means. Thus the invention also relates to a device which, similar to that shown with reference to Figures 1 to 3, comprises a hook (20) arranged differently to actuate the rotary reset member of a circuit breaker relative to the axis from which it is offset laterally.

Claims (7)

REVSDICATIONS  1. Autonomous courtyard device reclosing a domestic electric circuit breaker characterized in that it comprises a box (4) attached to the circuit breaker (3) and - containing an electric gearmotor (12) connected to an autonomous energy source (14) through a power supply unit (13) with time delay, an actuation lever (7) one end of which is linked in rotation with eccentricity to a plate (9) wedged on the output shaft (1o) of the gearmotor ( 12), while the other end, projecting from the housing (4) and disposed in the operating path of the reset member (6) of the circuit breaker, is arranged to cooperate with this member, and a microswitch (22a-37a ), carried by the actuating lever (7) and whose actuating tongue (22b37b) is capable of detecting disconnection and triggering the operation of the device.  2. Device according to claim 1 characterized in that the housing (4) is fixed to the electrical panel (2) carrying the circuit breaker (3) above the latter and protrudes from the front face of the latter, while the actuating lever (7) is arranged substantially vertically in front of the circuit breaker (3).  3. Device according to any one of claims 1 and 2 characterized in that the power supply (13) is connected to an on-off button (16) independent of the microswitch and putting it into standby state.  4. Device according to any one of claims 1 to 3 characterized in that the power supply (13) is connected to an indicator light (18) for indication of rearming.  5. Device according to any one of claims 1 to 4 characterized in that the timing of the power supply is controlled through a potentiometer (26) for adjusting the duration.  6. Device according to all of claims 1 and 2 and any one of claims 3 to 5 characterized in that in the case of its application a circuit breaker with lever (6) of oscillating reset, the lower end of the lever d actuation (7) is arranged in the form of a hook (20) which, open upwards, is separated from the tongue (22b) of the microswitch (22a), tongue projecting towards the rear of the actuation lever (7 ), by a distance (d) less than the vertical path (93 of the reset lever (7) of the device, so that in the standby position of the device, position in which the actuation lever (7) is at bottom dead center, the tongue (22b) is in contact with the reset lever (6), then in the operating position.  7. Device according to all of claims 1 and 2 and any one of claims 3 to 5 characterized in that in the case of its application to a circuit breaker with reset by push button, the actuating lever (7) is articulated substantially in its middle around a horizontal axis (32) carried by a clevis (33) of the housing (4), has at its upper end a longitudinal lumen (34) whose edges cooperate with a crank pin (8) of the plate (9) and is provided, at its lower end, with a pressing button (35), projecting rearward and of adjustable position, while the end of the tongue (37b) of the microswitch (37a), protruding rearward and downward, is interposed between the push button (30) of the circuit breaker and the press button (35), so that in the standby position of the device, position in which the lower end of the actuating lever (7) is distant from the push button (30), the end of the tongue (37b) is in the trigger path of this push button (30).