FR2899375A1 - Multichannel fixed connector for motor vehicle, has adherent sealing material incorporated in connection zone connecting tabs with printed circuit board so as to seal zone from line, and rear part engaged inside distribution case - Google Patents

Abstract

The connector (3) has bi-material conducting tabs (5) including ends (6), where one end is connected to an electronic printed circuit board (2) of a standard electronic centralized distribution case (1) and the other end forms a line terminal. A fusible central part (7) is configured for performing a fusible function. An adherent sealing material (10) is incorporated in a connection zone that connects the tabs with the electronic printed circuit board in a manner to seal the zone from the line, where the material is in the form of gel. A rear part (4) is engaged inside the distribution case.

Description

MULTIVOIE EMBASE FOR THE PROTECTION OF AN ELECTRIC LINE AND ITS

LINK IN DEPARTURE OF LINE.

  The present invention relates to a multi-channel base for the protection of an electrical line and also the protection of its link at the start of a line. Any electrical line has at the start of the distribution member a protective device or fuse for cutting the current in case of short circuit, or exceeding the maximum current value. In order to limit the number of removable fuses on centralized distribution boxes, it is well known to group together on the same fuse several starting lines of the same or more bases. Such an arrangement makes it necessary to provide lines of relatively large section at the base outlet if the lines are long, so that the impedance of the line is sufficiently low so that the intensity caused by a short circuit in end of line is enough to blow the fuse and not too much heat the line itself. It is possible to provide unit fuses, non removable for customers, arranged inside the housings, so internally on the electronic circuits. This has the disadvantage of having to add additional components on the electronic boards.

  It is also known that the bases do not offer the same local failure resistances as the simple interconnections, because of a difference in the thermal conduction; indeed, an electronic card does not have the thermal drain capabilities of a conductive wire with its low current density. Thus, the centralized distribution of power lines requires as many fuses as there are outputs, and this provision does not protect local failures of this output connection. A first solution is to use self extinguishing materials in case of risk of excessive heating. But this solution has the disadvantage that all components must be treated, namely the base, the clip holder, the insulation of the wires, etc. Various protection systems are already known to protect internal equipment against any damage that may result from over-voltage and over-current conditions on the external lines. Thus, it is known, for example, according to the French patent No. 2,418,561, a line protection device which comprises an insulating base, line terminals and a ground terminal on this base, a line circuit between the line terminals, means for establishing a direct metal current path between the line circuit and the earth terminal in case of overcurrent on the line. These means of establishing a metallic path comprise a metal element, a thermal coil around the metal element, a fusible element under the action of the heat generated by the thermal coil when there is overcurrent and a spring to which this fuse element, unless it melts, opposes to ensure the formation of said direct metal path, the thermal coil being part of the aforementioned line circuit. A contact is connected to one of the line terminals and to one end of the thermal coil and an additional contact is connected to the other line terminal and the other end of the thermal coil as well as the metal element. These contacts are rigidly assembled with the respective ends of the thermal coil and are also rigidly assembled with the respective terminals, so as to eliminate unsecured electrical stop connections in the line circuit between the line terminals. With such a line protection structure, the circuit of the thermal coil is substantially noise-free throughout the life of the protection. Also known, according to French Patent No. 2,507,384, a high voltage current limiting fuse, which comprises along its length, at spaced locations, several sets of areas of reduced cross section with predetermined time-current melting characteristics. The fuse thus has conductive segments of different fusible materials, one at a higher melting temperature than that of the other segments, so that this conductive segment after melts in other abnormal current conditions than said other segments.

  A first object of the present invention is to design a new multichannel base that can fulfill the function of protecting the line, that is to say, fulfill the fuse function operating both as a conventional fuse Joule effect and as a fuse thermal. Another object of the present invention is to design such a new multichannel base which can also fulfill the function of protecting its connection at the start of the line, that is to say to fulfill a sealing function of the entire delicate area. what constitutes the connection of the base with the circuit or electronic card. Another object of the present invention is to provide such a base which is of simple construction, which is reliable in its operation, and inexpensive.

  To achieve these goals and others that emerge explicitly or implicitly from the remainder of this text, the present invention provides a new multi-channel base that provides protection of a power line and its connection at the start of line. This new base, intended to be positioned on a housing enclosing an electronic card, has tabs whose one end is connected to said electronic card and the other end forms a line terminal, and in this new base a part of at least a tab is configured to act as a fuse.

  According to a preferred embodiment of the invention, an adherent sealing material is incorporated in the tongue of the connection zone with the printed circuit of said electronic card, so as to seal said connection area at the start of line. Preferably, the tongue configured to act as a fuse is a bi-material tongue, a portion of said tongue being made of a metal material with a relatively low melting point.

  Also preferably, said portion configured to act as a fuse is a substantially central portion along the length of the tongue. In a variant, said portion configured to act as a fuse is a portion substantially adjacent to the electronic card.

  According to a preferred embodiment, said portion configured to act as a fuse is made of low melting point metal material, tin alloy type. According to a preferred embodiment of the invention, the base includes a rear portion engaged in the interior of the housing, which is configured to allow precise positioning of the ends of the tabs on the electronic card. And, preferably, the connection between the ends of the tongues and the printed circuit of the electronic card is made by wave soldering.

  According to the preferred embodiment of the invention, the electronic card has on both sides a layer of protective varnish, except in the attachment areas of the base for receiving the conductive tabs.

  And also according to this preferred embodiment, said rear part of the base comprises a housing in which is disposed an adherent sealing material, said housing being traversed by the ends of the tongues, so that said sealing material Seals the connection area of the base with the electronic board, particularly in the area closest to the electronic board. Preferably, said adherent sealant material is a gel material, and this material has a self-healing property.

  Other objects, advantages and features of the invention will become apparent in the following description of an exemplary embodiment of the invention, not limiting the scope of the present invention, and accompanied by drawings in which: - Figure 1 is a schematic partial sectional view of a multichannel protection base according to the invention, in position on an electronic card case. FIG. 2 is an enlarged view of the part of the base in the connection zone between the conductive tabs and the electronic card.

  Referring to the drawing of Figure 1, reference numeral 1 designates an electronic box, which may be a standard type of housing, for the protection of one or more components. In the present example, which is not limiting of the subject of the invention, the housing 1 is intended for the protection of an electronic card 2, or bare printed circuit board support equipped with electronic components. The connection of the housing 1 to the outside is made by a base, referenced 3, which closes the casing constituting the housing 1 and includes the bushings for said connection to the outside. The electronic card 2 is put in place and locked in position in the closed envelope formed by the housing 1 and the base 3 by means of the groove 1a in the bottom of the housing 1 and the groove 3a in the base 3. The base 3 comprises a flanged front portion with a peripheral surface 3b of connection and adjustment on the periphery of the housing 1. The base 3 also comprises a rear portion engaged in the interior of the housing 1, reference 4, whose main function is to allow precise positioning of the ends 6 of the tongues 5 on the electronic card 2. The ends 6 of the tongues 5 are connected to the electronic card 2 by a welding operation, for example welding at the wave, whose weld points are designated by the general reference 8, the overflow on the upper face being designated by the reference 8a and better represented in the enlarged view of Figure 2. For this, we deposits a flux to allow welding; the electronic card 2 and the tongues 5 to be welded, on both sides of the card 2, are driven and preheated before being passed through a wave of solder with tin, in a manner known per se, the amount of solder depending on the height of the circuit relative to the wave. The weld on the upper face of the electronic card 2 is made by capillary overflow from the inner face. The board components (traditional or SMD Surface Mounted Devices) can be glued and soldered to the wave at the same time. Alternatively, the tongues 5 can be linked to the electronic card 2 by a so-called press fit connection technique, known per se, sometimes used in connection technology, which is a forced insertion technique making the process of superfluous welding and making connections of great reliability without restriction as to the connection on the printed circuit.

  The electronic card includes a layer of varnish 14 which protects it from the attacks of moisture, but this layer is however not present in the fixing areas of the base 3 on the card 2 to receive the electrical connections between the base 3 and the card 2, namely the lower surface area and the upper surface area of the card 2 which contains the weld points 8 and the upper surface area of the card 2 facing the middle part 3c of the base 3. The tabs 5 comprise for some (for one in the drawing of Figure 1) a central portion 7 fuse metal low melting point inserted between the two main parts of the tongue 5. ie outer side housing the part of linkage of the tongue with the clip 11 (crimped at 12 on the conductor 13) shown on a single tongue of FIG. 1, and on the electronic board side the connection which has just been described and represented by the welds 8 plus 2, therefore, the tabs 5 with a central part of the type referenced 7 are bi-material tongues: the central part 7 can be, for example, of tin-alloy metal, while the main parts The outer casing and card side connection can be conventionally made with a copper, bronze or brass core and an outer tin, silver or gold coating. The section of the central part 7 with a low melting point is adapted, in a manner known per se, to the nominal intensity of the corresponding electrical line. It is important to note that this central part is in perfect thermal coupling with the areas likely to fail, namely a deformed clip or a presence of water that oxidizes the external connection or the zone of attachment of the tabs on the electronic card. Significant heating of these areas susceptible to failure causes the melting of the tongue 5 and, consequently, the shutdown of the mechanism likely to pack. On the electronic card side, the rear part 4 of the base 3 comprises a housing 9 in which there is provided a sealing material 10 in the form of gel, known per se, having properties of substitution to a varnish and strong adhesion on the surface on which it is in contact, as well as properties of strong internal adhesion, which results in the so-called self-healing property, that is to say that the sealing material remains tight even if it is penetrated by small oxidation bubbles. The amount of gel, and its method of setting up, are studied so that the gel 10 adheres to the card 2 without causing the base 3 to rise. The operation of the protective base described above is as follows In the event of undesirable aggression on the electrical line, the clip 11, connected to the conductor 13 by crimping 12, sees its degraded connection at the contact of said clip 11 with the corresponding tongue 5, and this assembly starts to heat up. excessively with respect to the expected Joule effect heating on the non-degraded link. The fuse central part 7 of the tongue 5 is then thermally stressed, and in addition to its function known per se of protection of the line due to a short-circuit on the line of the conductor 13, melts and cuts off the electric current as a result of the degradation of the connection of the clip 11 with the tongue 5. The same effects result from a degradation of the connection between the tongue 5 and the electronic card 2, when, for example, this link of the tongue 5 with the card 2 heats up. abnormally as a result of a presence and a path of water along the tongues 5 through the crossings of the walls of the base 3. With regard to this second type of aggression, it can be set up on the critical areas of the card 2 not coated with varnish 14 a sealing gel 10, as mentioned above. Such gel disposed in the housing 9 of the rear portion 4 of the base 3 adheres perfectly to the surface of the electronic card 2, in particular in the weld zone 8 (see Figure 2) and prevents any reduction of the insulation between welding meniscus, whether type 8 or overflow, type 8a. This area of the welds 8 is critical in the presence of high humidity because the wet film can form conductive salts in case of permanent tension.

  Thus, as shown by the above description of an exemplary embodiment of the invention, given by way of illustration of the principle of the invention, the base according to the present invention provides three distinct protections: the protection against electrolyses at the foot of the tab 5 on the circuit board of the electronic card 2, the protection against short free circuits and the protection against bad electrical contacts between the two ends of the tongue 5. The protection against short free circuits allows to remove some fuses. Among other results and advantages of the invention, there is, therefore, the reduction of the number of protective fuses of a line distribution and their connection at the beginning of line. Embodiments other than those described and shown may be devised by those skilled in the art without departing from the scope and scope of the present invention.

Claims (13)

  1. Multi-channel socket for protecting an electrical line and its connection at the start of a line, intended to be positioned on a housing (1) enclosing an electronic card (2), comprising tabs (5), one end (6) of which ) is connected to said electronic card (2) and the other end forms a line terminal, characterized in that a portion (7) of at least one tab (5) is configured to act as a fuse.   2. Multi-channel base according to claim 1, characterized in that, in addition, a sealing material (10) adherent is incorporated in the tongue of the connection zone (5) with the printed circuit of said electronic card (2), so as to seal said connection area at the start of a line.   3. multi-way socket according to claim 1, characterized in that said tongue (5) is a bi-material tongue, a portion (7) of said tongue (5) being made of a metal material with a relatively low melting point.   4. multi-channel socket according to claim 1, characterized in that said portion (7) configured to act as a fuse is a substantially central portion along the length of the tongue (5).   5. multi-channel socket according to claim 1, characterized in that said portion (7) configured to act as a fuse is a portion substantially adjacent to the electronic card (2).   6. multi-channel socket according to any one of claims 4 or 5, characterized in that said portion (7) configured to act as a fuse is made of low melting point metal material, tin alloy type.   7. multi-channel base according to claim 1, characterized in that it comprises a rear portion (4) engaged in the interior of the housing (1), which is configured to allow precise positioning of the ends (6) of the tongues (5). ) on the electronic board (2).   8. multi-channel socket according to claim 1 or claim 7, characterized in that the connection between the ends (6) of the tongues (5) and the printed circuit of the electronic card (2) is carried out by wave soldering.   9. multi-channel socket according to claim 1 or claim 8, characterized in that said welding is performed on both sides of the printed circuit of the electronic card (2).   10. multi-channel base according to any one of claims 1 to 9, characterized in that the electronic card (2) has on both sides a layer of varnish (14) protection, except in the fixing areas of the base for receiving the tongues (5) conductive.   11. multi-channel base according to claim 7, characterized in that said rear portion (4) of the base (3) comprises a housing (9) in which is disposed a sealing material adherent (10), said housing (9). ) being traversed by the ends (6) of the tongues (5) so that said sealing material (10) sealing the connection area of the base (3) with the electronic card (2).   12. multi-way socket according to claim 2 or claim 11, characterized in that said adherent sealing material (10) is a material in the form of a gel.   13. Multi-channel base according to claim 11 or claim 12, characterized in that said adherent sealing material (10) is a material which has a self-healing property.