• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Pyrotechnic circuit breaker comprising: - a housing (10), - a first portion (20) of a first electrical circuit, - at least a second portion (30) of a second electrical circuit, - a piston (40) movable in the housing (10), between a first position and a second position, and arranged to break the first portion (20) and said at least one second portion (30) as it passes from the first position to the second position, - a pyrotechnic actuator arranged to move the piston (40) from the first to the second position, characterized in that, when the piston (40) is in the second position, the housing (10) and the piston (40) are arranged to form at least one breaking chamber (60) into which a single one of one of the first portion (20) or of said at least one second portion (30).
    公开号:FR3014594A1
    申请号:FR1362296
    申请日:2013-12-09
    公开日:2015-06-12
    发明作者:Francois Gaudinat
    申请人:NCS Pyrotechnie et Technologies SAS;
    IPC主号:
    专利说明:

    [0001] FIELD OF THE INVENTION The present invention generally relates to a pyrotechnic circuit breaker arranged to be part of an electric power distribution device for a motor vehicle, and in particular an electric vehicle.
    [0002] It is known in the prior art pyrotechnic circuit breaker devices, in particular that presented by the document DE102010045726, which comprises a first portion of a first electrical circuit and a second portion of a second electrical circuit, which can be a control circuit connected to an electronic card and the first electrical circuit being for its part a power circuit connected to electrical energy storage. In return, this system has in particular a high risk of short circuit between the two circuits, especially during the break imposed by a piston. The power circuit can be brought into contact with the control circuit, which is then likely to be damaged if the power circuit is connected to several energy storage devices such as batteries or supercapacitors, which can instantaneously deliver a large electrical power. that can not support the control circuit. It can also be noted that the power circuit break can lead to arcing that will cause a short circuit between the two circuits and / or maintain undesirable electrical continuity, even after physically cutting the circuit portions. An object of the present invention is to meet the disadvantages of the documents of the prior art mentioned above and in particular, first of all, to propose a circuit breaker which reduces the risks of short circuiting between two circuits. that he has to cut.
    [0003] For this purpose, a first aspect of the invention relates to a pyrotechnic circuit breaker comprising: a housing, a first portion of a first electrical circuit, at least a second portion of a second electrical circuit, a movable piston. in the housing, between a first position and a second position, and arranged to break the first portion and said at least a second portion during its passage from the first position to the second position, 10 - a pyrotechnic actuator arranged to pass the piston from the first to the second position, characterized in that, when the piston is in the second position, the housing and the piston are arranged to form at least one breaking chamber into which a single one of the first portion or portion of said at least a second portion. Said at least one chamber (a closed chamber) formed by the piston and the housing has the main effect of preventing any electrical contact between the only one of the first portion or of said at least a second portion which it contains and / or which opens in said at least one chamber, and any other conductive element of the remainder of the circuit breaker. Thus, the risks of short circuit are limited, despite the fact that there is only one piston. It is possible with this small circuit breaker (because there is only one piston) to greatly reduce the risk of short circuit between the two portions of electrical circuits, thanks to the presence of the breaking chamber. It is understood that only one of the two portions opens into said at least one chamber, which means that an electrical conductor of said portion may be partially contained, flush with one of the walls of the chamber, and that this conductor is energized even after power failure if the circuit breaker is connected to both live electrical circuits. This implementation therefore confines in said at least one chamber the electrical conductors of one of the two portions to isolate them from the rest of the elements of the circuit breaker, and in particular the other portion. For example, an electric arc generated by the portion that opens into the chamber will be contained in the chamber. Advantageously, the first electrical circuit has a first electrical power greater than a second electrical power of the second circuit, and wherein the first portion opens into said at least one breaking chamber. It is advantageous to provide that the interrupting chamber contains the high power circuit, to limit the risk of contact of this circuit with the rest of the circuit breaker. Advantageously, the piston, when in the second position, is arranged to cover a rupture zone of said at least a second portion. The rupture zone of the second portion is by definition still electrically connected to the remainder of the second electrical circuit, and covering it prevents it from coming into contact with other conductive elements (the first electrical circuit or a ground for example) or that an arc can be established between any part of the first portion and a rupture zone of the second portion. Advantageously, the piston, when in the second position, is arranged to cover a rupture zone of said at least a first portion. The risk of generation and / or propagation of an electric arc is further limited. Advantageously, when the piston is in the second position, the piston and the housing are arranged to form at least two separate breaking chambers, each containing a broken part of one of the first portion or of said at least a second portion. Advantageously, the piston comprises two distinct cutoff surfaces each arranged to break one of the first portion or of said at least one second portion. This makes it possible to envisage a substantially simultaneous cutting of the first portion of the first electrical circuit and the at least one second portion of the second electrical circuit.
    [0004] Advantageously, one of the cut surfaces is part of an index arranged to prevent rotation of the piston about a sliding axis in the housing. The rupture made by the piston will be better controlled.
    [0005] Advantageously, the two cutting surfaces are at least 4 millimeters apart, in a direction of displacement of the piston. Advantageously, said at least a second portion comprises a bridge, two branches overmolded in the housing, between which is the bridge, and the piston is arranged to cut the bridge at its junction with each molded branch. A complete length of the second circuit is cut off: the antenna effect is limited, and the breaking of the contact is more frank. In addition, an electric arc must be formed over a longer length to connect the two breaking zones of the second circuit. Cutoff safety is improved. Furthermore, the second circuit is a control circuit (low power so), it is small, so flexible. Overmolding limits this natural bending and promotes a clean break and a clean cut. Finally, when the piston is in the second position, it is arranged to cover the two rupture zones of said at least one second portion, the piston is in close contact or without play with the two rupture zones of said at least one two which has the effect of further limiting the possibility of establishing an electric arc between any part of the first portion and one of the rupture zones of the second portion. Advantageously, the bridge is covered with an insulating material. Thus, the risks of electrical connection are limited. Advantageously, the sectioned bridge has a length and / or a thickness determined (s) to be too low (s) to connect the second portion with the first portion, when the piston is in the second position, and / or to restore continuity electric of the first portion.
    [0006] The sectioned bridge, which is free in the circuit breaker once it has been activated, can not unintentionally re-establish an electrical connection. Advantageously, the plunger comprises a distal portion and a proximal portion, the proximal portion being arranged to cut off said at least one second portion, and the proximal portion is arranged to present, in the second position, a clearance with the casing less than one. clearance between the distal portion and the housing. The proximal part (that close to the pyrotechnic igniter) has less play, that is to say that it will form an effective electrical insulation between the interrupting chamber and the second covered circuit will be more difficult to put in contact with. by an electric arc with the first portion. Advantageously, this game of the proximal portion may be zero and / or negative so that the proximal zone is in the second position, locked in the housing. This further reduces the risk of making arcing contact with the first portion. Advantageously, the housing and the piston are arranged to isolate one of the first portion or of said at least a second portion of an electric arc created by cutting the other portion of the first portion or of said at least one second portion. Advantageously, the housing and the piston are arranged to form a gas barrier between the two breaking chambers. The passage of ionized gases between the two breaking chambers is limited, which prevents a short circuit by an electric arc. Advantageously, the piston is arranged to cut the first portion after a first stroke from the first position, and in that the piston is arranged to cut off said at least one second portion after a second stroke from the first position, the second stroke being higher than the first race. This arrangement makes it possible to sequence the opening of the electrical circuits and to guarantee that when the second electrical circuit is opened, the first is already open, which provides a means of checking the opening of the first circuit. Advantageously, the failure sequencing of the first portion and of said at least a second portion is defined by a distance between the cutoff surface of the first portion and the cutoff surface of said at least a second portion. It is possible to simultaneously break the two portions, or first the first portion, or first the second portion, simply configure the piston according to the desired cutting strategy. Advantageously, the first portion of electrical power greater than the electrical power of the second portion and therefore of larger section than that of the at least one second portion is situated along the axis of displacement of the piston and substantially symmetrically with it. while the at least one second portion is offset with respect to this same axis. By this implantation, the piston is less unbalanced during the breaking of the at least a second portion which has the effect of improving the robustness of operation of the device. Advantageously, the piston is made of an insulating material. Advantageously, the housing comprises a vent arranged to release compressed air into the interrupting chamber comprising the broken portion of the first portion. With such a vent, the pressure does not increase, which eliminates a risk of recoil of the piston. A second aspect of the invention is a current distribution device comprising at least one circuit breaker according to the first aspect of the invention. A final aspect of the invention is a motor vehicle comprising at least one circuit breaker according to the first aspect of the invention. Other features and advantages of the present invention will appear more clearly on reading the following detailed description of an embodiment of the invention given by way of non-limiting example and illustrated by the appended drawings, in which: - Figure 1 shows a circuit breaker according to the invention in isometric view; - Figures 2a and 2b shows the circuit breaker of Figure 1 in section along a vertical plane, respectively before and after operation; - Figure 3 shows the circuit breaker of Figure 1 in section along a horizontal plane, before operation. FIG. 1 shows a circuit breaker according to the present invention, which comprises a housing 10, a first portion 20 of a first electrical circuit, a second portion 30 of a second electrical circuit, and a pyrotechnic igniter 50 which can be seen the connection pins. Typically, the first portion 20 is part of a first electrical circuit capable of being subjected to voltages ranging from 0V to 400V and currents ranging from 0V to 1500A, while the second portion 30 is connected to a second circuit which may be subject to at voltages ranging from OV to 48V and currents ranging from OA to 10A. The invention therefore aims to limit the risk of short circuit between the first portion 20 and the second portion 30, as this could damage at least the second electrical circuit. FIG. 2a shows the circuit breaker of FIG. 1 in section along a vertical plane parallel to the plane containing the x and z axes of FIG. 1, and before operation. The housing 10 comprises a piston 40 arranged to be able to slide in the housing 10 in the direction x, under the action of gases released by the pyrotechnic igniter 50.
    [0007] As shown in Figure 2a, the igniter 50 has not yet worked, and the piston 40 is in a first position, resting on the igniter 50. As shown in Figure 2b, the igniter 50 has operated, and the piston 40, under the action of the gases released by the igniter, has passed into a second position, at the end of the race. During the passage from the first position to the second position, the piston 40 is arranged to break the first portion 20 of the first electrical circuit and the second portion 30 of the second electrical circuit. For this purpose, at the top of the piston 40 is formed a cutoff surface 41 above which is a free portion 21 of the first portion of the first electrical circuit, the cutoff surface 41 is arranged to break when the piston 40 goes from the first position to the second position. In the same way, on the right part of the piston 40 is a cutoff surface 42 above which is a bridge 31 of the second portion 30 of the second electric circuit, that the cutoff surface 42 is arranged to break when the piston 40 moves from the first position to the second position. When the piston 40 is in the second position, as shown in Figure 2b, the free portion 21 of the first portion 20 is broken, as shown by the absence of hatching in its section, and the bridge 31 of the second portion 30 has been severed and detached from the second portion 30, so that it is shown well above its initial position of Figure 2a. This detachment part of the bridge 31 will be explained in more detail in FIG. 3. To return to FIG. 2b, it can be seen that the cutoff surface 42 arranged to break the second portion 30 has covered the rupture zone (where attached bridge 31 in Figure 2a), and a break chamber 60 containing the free portion 21 broken was created. The interrupting chamber 60 is delimited by the housing 10, the piston 40, in particular the cut-off surface 42. Only the first portion 20 opens into this breaking chamber 60, since, as explained above, the rupture zone of the second portion is covered by the piston 40, and the bridge 31 is completely detached from the second portion 30, so that it is no longer part of it. As a result, the risk of electrical connection by electric arc between the first portion 20 and the second portion 30 is greatly reduced. It may be noted that the failure sequencing of the first portion 20 and the second portion 30 can be defined by the distance along the x direction between the cutoff surface 41 and the cutoff surface 42. It is possible to simultaneously break the two portions, or first the first portion, or first the second portion. FIG. 3 represents an isometric view of a section along a plane parallel to the xy plane of FIG. 1. The piston 40 is in the first position, with the cutoff surface 42 facing the bridge 31 of the second portion 30. The bridge 31 is connected to the remainder of the second portion 30 by two branches 32 and 33 which are a plastic overmolding of the second portion 30, and is in a groove of the housing 10, in which slides an index 43 of the piston 40. The index 43 comprises the cutoff surface 42 and functions as an anti-rotation finger, which ensures that the piston 40 will have a displacement in a sliding connection, with a single degree of freedom. When the piston 40 moves from the first position to the second position, the index 43 and the cutoff surface 42 shear the branches 32 and 33, as a punch would with the matrix formed by the groove of the housing 10. A this occasion, overmoulding of the branches 32 and 33 provides increased rigidity to the second portion 30, and the shear is all the more effective. It is conceivable to locally reduce the mechanical resistance of the branches 32 and 33 and / or the bridge 31 to promote a localized break at the walls of the groove of the housing 10. Finally, it is important to provide a part of the second portion 30 free, to allow precise positioning of the second portion 20 in an injection mold.
    [0008] As the bridge 31 is also overmolded in plastic, the risks of electrical contact are limited to the two zones of rupture, which increases the robustness of the solution. In addition, since the bridge is sheared at both ends (at the walls of the groove of the housing 10), there is no antenna effect, which could favor an electrical connection by an electric arc between the first and second ends. portion 20 and the bridge 31. Finally, during the advancement of the piston 40, the rupture zones of the second portion (which remain in electrical continuity with the second portion) are covered by the index 43 of the piston 40, so that that an obstacle and a seal are formed to prevent contact with an ionized plasma of an electric arc formed in the interrupting chamber 60. It will be understood that various modifications and / or improvements obvious to those skilled in the art can be made to the various embodiments of the invention described in the present description without departing from the scope of the invention defined by the appended claims.
    权利要求:
    Claims (15)
    [0001]
    REVENDICATIONS1. Pyrotechnic circuit breaker comprising: - a housing (10), - a first portion (20) of a first electrical circuit, 5 - at least a second portion (30) of a second electrical circuit, - a piston (40) mobile in the housing (10), between a first position and a second position, and arranged to break the first portion (20) and said at least a second portion (30) during its passage from the first position to the second position, A pyrotechnic actuator (50) arranged to move the piston (40) from the first to the second position, characterized in that, when the piston (40) is in the second position, the casing (10) and the piston (40) are arranged to form at least one interrupting chamber (60) into which only one of one of the first portion (20) or said at least one second portion (30) emerges.
    [0002]
    2. Circuit breaker according to the preceding claim, wherein the first electrical circuit has a first electrical power greater than a second electrical power of the second circuit, and wherein the first portion (20) opens into said at least one break chamber 20 (60).
    [0003]
    3. Circuit breaker according to one of the preceding claims, wherein, the piston (40), when in the second position, is arranged to cover a rupture zone of said at least a second portion (30).
    [0004]
    4. Circuit breaker according to one of the preceding claims, wherein, when the piston (40) is in the second position, the piston (40) and the housing (10) are arranged to form at least two break chambers. separate, each containing a broken part of one of the first portion (20) or of said at least a secondportion (30).
    [0005]
    5. Circuit breaker according to one of the preceding claims, wherein the piston (40) comprises two separate cutting surfaces (41, 42) each arranged to break one of the first portion (20) or said at least a second portion (30).
    [0006]
    6. Circuit breaker according to the preceding claim, wherein one of the cutoff surfaces (41, 42) is part of an index (43) arranged to prevent rotation of the piston (40) about a sliding axis. in the housing (10).
    [0007]
    7. Circuit breaker according to one of the preceding claims, wherein said at least a second portion (30) comprises a bridge (31), two branches (32, 33) overmolded in the housing (10), between which the bridge (31), and wherein the piston (40) is arranged to cut the bridge (31) at its junction with each branch (32, 33) overmolded.
    [0008]
    8. Circuit breaker according to the preceding claim, wherein the bridge (31) is covered with an insulating material.
    [0009]
    9. Circuit breaker according to one of claims Tu 8, wherein the bridge (31) sectioned has a length and / or a thickness determined (s) to be too low (s) to connect the second portion (30) with the first portion (20), when the piston (40) is in the second position, and / or to restore electrical continuity of the first portion (20).
    [0010]
    10. A circuit breaker according to one of the preceding claims, characterized in that the piston (40) comprises a distal portion and a proximal portion, the proximal portion being arranged to cut said at least one second portion (30), and in that the proximal portion is arranged to present, in the second position, a clearance with the housing (10) less than a clearance between the distal portion and the housing (10).
    [0011]
    11. Circuit breaker according to one of the preceding claims, wherein the housing (10) and the piston (40) are arranged to form an obstacle and isolate one of the first portion (20) or said at least one second portion (30) of an electric arc created by cutting the other of the first portion (20) or said ad least a second portion (30), during the passage of the piston (40) in the second position.
    [0012]
    12. A circuit breaker according to claim 4, wherein the housing (10) and the piston (40) are arranged to form a seal and a gas barrier between the two breaking chambers during the passage of the piston (40). in the second position.
    [0013]
    13. Circuit breaker according to one of the preceding claims, characterized in that the piston (40) is arranged to cut the first portion (20) after a first stroke from the first position, and in that the piston (40) ) is arranged to cut said at least one second portion (30) after a second stroke from the first position, the second stroke being greater than the first stroke. 15
    [0014]
    14. Current distribution device comprising at least one circuit breaker according to one of the preceding claims.
    [0015]
    15. Motor vehicle comprising at least one circuit breaker according to one of claims 1 to 13.
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    同族专利:
    公开号 | 公开日
    FR3014594B1|2016-01-01|
    引用文献:
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    EP2200061A1|2007-09-27|2010-06-23|Daikin Industries, Ltd.|Cutting device, breaker, contact maker, and electric circuit breaker|
    FR2953324A1|2009-11-27|2011-06-03|Snpe Materiaux Energetiques|ELECTRIC SWITCH WITH SLIDING DRAWER FORMING CIRCUIT BREAKER OR SWITCH|
    DE102010045726A1|2010-09-07|2012-03-08|Fele Gmbh & Co. Kg|Safety device and method for producing a safety device|WO2017196535A1|2016-05-11|2017-11-16|Cooper Technologies Company|Pyrotechnic circuit protection systems, modules, and methods|
    FR3071657A1|2017-09-26|2019-03-29|Arianegroup Sas|PYROTECHNIC CUTTING DEVICE|
    US11043344B2|2018-05-23|2021-06-22|Eaton Intelligent Power Limited|Arc flash reduction maintenance system with pyrotechnic circuit protection modules|
    EP3840006A1|2019-12-16|2021-06-23|Littelfuse, Inc.|Active and passive fuse module|
    WO2021228518A1|2020-05-13|2021-11-18|Auto-Kabel Management Gmbh|Electrical disconnecting device, system comprising a disconnecting device, and method for producing a disconnecting device|
    法律状态:
    2015-10-09| TP| Transmission of property|Owner name: AUTOLIV DEVELOPMENT AB, SE Effective date: 20150908 |
    2015-12-22| PLFP| Fee payment|Year of fee payment: 3 |
    2016-12-20| PLFP| Fee payment|Year of fee payment: 4 |
    2017-12-20| PLFP| Fee payment|Year of fee payment: 5 |
    2019-12-27| PLFP| Fee payment|Year of fee payment: 7 |
    2020-12-22| PLFP| Fee payment|Year of fee payment: 8 |
    2021-12-30| PLFP| Fee payment|Year of fee payment: 9 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1362296A|FR3014594B1|2013-12-09|2013-12-09|PYROTECHNIC CIRCUIT BREAKER|FR1362296A| FR3014594B1|2013-12-09|2013-12-09|PYROTECHNIC CIRCUIT BREAKER|
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