WO2013014005A1

WO2013014005A1 - Housing plug connector and housing having a housing plug connector

Info

Publication number: WO2013014005A1
Application number: PCT/EP2012/063764
Authority: WO
Inventors: Oliver Gradtke; Jochen Kircher
Original assignee: Robert Bosch Gmbh
Priority date: 2011-07-27
Filing date: 2012-07-13
Publication date: 2013-01-31
Also published as: DE102011079914A1; CN103718389A; EP2737582A1; CN103718389B; EP2737582B1

Abstract

The invention relates to a housing plug connector (34) for making contact with the outside of a circuit arrangement which is arranged in the corresponding housing (10), having a contact arrangement (36) which has a contact support (38) and at least one contact element (32), which is held in the contact support (38), a housing-side plug connector part (46) with at least one aperture (54) through which the contact element (32) extends into the outer region (56) of the housing (10), and at least one seal (40) which seals off the contact arrangement (36) from the housing-side plug connector part (46). Provision is made for the contact support (38) for accommodating a fluid (60) which forms the seal (40) to be in the form of a trough-like contact support (38) with a circumferential border (42), and for the housing-side plug connector part (46) to have a punch-like subregion (48) in which the aperture (54) is formed, wherein this subregion (48) engages in the hollow space (58) in the trough-like support (38) when the housing plug connector (34) is in the fitted state. The invention also relates to a housing (10) having at least one corresponding housing plug connector (34).

Description

description

title

Housing connectors and housings with housing connectors

The invention is based on a housing connector for the outer Kontak- tion of a arranged in the corresponding housing circuitry. The housing connector has a contact arrangement, which has a contact carrier and at least one contact element held in the contact carrier, a housing-side connector part having at least one opening through which the contact element extends into the outer region of the housing and at least one sealing the contact arrangement against the housing-side connector part Seal on.

The invention further proceeds from a housing for accommodating a circuit arrangement, in particular a circuit arrangement arranged on a printed circuit board carrier, with at least one housing plug connector in a housing wall of the housing.

State of the art

Such housing with housing connectors are used, among other things, in electronic control units (SG) in the automotive sector. In control devices, in particular for use in the engine compartment of a motor vehicle, there is often the requirement that the device must be tight without plugged mating connector. If several circuit elements, such as a printed circuit board, DBC (Direct Bonded Copper) or special components are arranged inside the device, one of which is fixed on the housing bottom (for example the circuit board for cooling), the task is often to be solved. to connect an upwardly outgoing tight plug with a fixed on the case bottom circuit board. However, the plug can not be shown as part of the housing cover, since the contact elements after joining the Lids on the heatsink having the remaining housing can not be soldered. The device is already closed at this moment. A blind pressing also does not make sense, since there is no security on a reliable connection of contact elements and conductor carrier with the appropriate number of connector pins.

The housing connector mentioned in the introduction is known, for example, from the document DE 10 2008 020 668 A1. The housing-side connector part is formed there as a sleeve into which the contact arrangement is completely inserted. The seal is formed as a contact carrier circumferential sealing edge, which seals the contact assembly against the housing-side connector part. The document also describes a corresponding housing. When assembling the connector, the already under tension seal must be moved relative to the housing-side connector part, which complicates the assembly.

Disclosure of the invention

When housing connector according to the invention it is provided that the contact carrier is formed as a trough-shaped contact carrier for receiving a fluid forming the seal with a peripheral edge and that the housing-side connector part has a stamp-like portion formed in which the opening, said portion in the mounted state of Housing connector engages in the cavity of the trough-shaped carrier.

The trough-shaped design of the contact carrier allows the use of a fluid forming the seal, which is distributed according to the formation of the shape of the seal upon engagement of the stamp-like portion of the housing-side connector part in the cavity of the trough-shaped contact carrier. It must therefore be moved to their positioning relative to the housing-side connector part and / or the contact assembly during assembly of the connector no preformed seal. By such a housing connector can thus be very easy to implement a sealed connector that is tight even without plugged mating connector.

In particular, it is provided that the at least one contact element in the contact carrier is sealed in a fluid-tight manner. An additional sealing of the contact carrier against the / the contact element (s) is not necessary.

According to a preferred embodiment of the invention, it is provided that the seal seals the housing-side connector part in the peripheral region of its stamp-shaped portion against the peripheral edge of the contact carrier. Furthermore, the seal seals the housing-side connector part in the region of the at least one opening in its stamp-like formed portion against the contact carrier and / or the at least one contact element.

According to a preferred embodiment of the invention, it is provided that the stamp-like formed portion of the housing-side connector part is formed as a connector base, which merges on the outside of the housing in a connector collar of the housing-side connector part.

According to a further preferred embodiment of the invention it is provided that a plurality of contact elements and a number of contact elements corresponding number of openings are provided. Each breakthrough is assigned to a contact element. Each contact element penetrates in the assembled state its associated breakthrough. In addition to these associated breakthroughs, an additional breakthrough or even a plurality of additional breakthroughs can be introduced, for example for venting purposes.

It is advantageously provided that the housing plug connector has at least one pair of interacting alignment structures for aligning the contact arrangement with respect to the housing-side connector part, wherein one of the alignment structures on the housing-side connector part and the other of the alignment structures is formed on the contact arrangement. In the housing according to the invention for receiving a circuit arrangement is provided that the housing plug connector is formed as mentioned above, wherein the housing-side connector part is integrally formed in the housing wall.

According to a preferred embodiment of the invention it is provided that the housing has a housing cover, wherein the housing wall is formed by this cover.

Finally, according to a further preferred embodiment of the invention, it is provided that a housing wall lying opposite the housing cover is designed as a heat sink, to which at least one component of the circuit arrangement can be thermally connected or connected. Among other things, this component can also be a conductor carrier.

The invention will be explained in more detail with reference to the accompanying drawings. Show it:

1 shows an assembly of a housing connector having a housing cover and a housing bottom to a housing according to a preferred embodiment of the invention,

2 shows the housing resulting from the joining according to FIG. 1 with mounted housing connector, FIG.

Fig. 3 is a detailed view of the assembled housing connector and its electrical connection to a conductor carrier in the housing, and

Fig. 4 shows an alternative embodiment of the housing connector according to a further advantageous embodiment of the invention.

FIG. 1 shows a housing 10 for accommodating a circuit arrangement arranged on at least one conductor carrier (a printed circuit board) 12, 14 (Not shown). The housing 10 has a housing cover 16 and a housing 20 designed as a housing 18 remaining housing. The housing cover 16 and the remaining housing 20 are joined together by joining (arrows 22), so that the fully assembled housing 10 is formed. The remaining housing 20 has a heat sink 24 with high heat capacity, or forms such a heat sink 24 from. In the example shown, two conductor carrier 12, 14 are arranged one above the other in the housing 10 and electrically connected to each other by means of conductor carrier connector 26. Mechanically, both conductor track carriers 12, 14 are connected to the heat sink 24. The lower of the conductor carrier 12 is directly connected and the upper of the printed circuit board carrier 14 is connected via spacers 28 to the heat sink 24. Due to its direct mechanical connection, the lower of the conductor carrier 12 is also thermally well connected to the heat sink. Further cooling devices, such as, for example, a cooling rib arrangement and / or heat pipes (heat pipes), etc., can be connected to the outer region of the cooling body 24. In the figures, however, no further cooling device is shown.

In the upper of the two conductor track carriers 14, connecting sections 30 of contact elements 32 of a housing plug connector 34 are directly soldered or pressed in. These terminal portions 30 are formed as lower end portions of the contact elements 32 themselves. Thus, the housing connector 34 produced by the joining process and shown in the assembled state in FIGS. 2 and 3 is electrically connected via said contact elements 32 to the conductor tracks of the conductor carrier 14. All contact elements 32 are arranged in a common contact arrangement 36. For this purpose, the contact elements 32 are held by a contact carrier 38 of the contact arrangement 36, wherein the contact carrier 38 is formed as encapsulation of the contact elements 32. Preferably, the contact elements 32 in the contact carrier 38 are sealed in a fluid-tight manner. The contact carrier 38 is designed to receive a seal (the sealing material) 40 forming fluid as a trough-shaped contact carrier 38 with a peripheral edge 42. This trough-shaped contact carrier 38 is preferably produced by means of injection molding.

A housing-side connector part 46 of the housing connector 34 is formed integrally with an upper housing wall 44 formed by the lid 14. This housing-side connector part 46 has a in the interior the housing 10 facing and stamp-shaped portion 48 on. The underside of this portion 48 forms a connector base 50. This is supplemented to the outside by a sleeve-shaped connector collar 52. In the connector base 50 and in the bottom of the portion 48 a plurality of apertures 54 are provided. Through each of these openings 54 protrudes one of the contact elements 32 from the interior of the housing 10 in a surrounded by the connector collar 52 outer region 56 of Gehäusesteckverb inder 34 and the housing 10th

The terminal portions 30 are like the rest of the contact elements 32 are relatively stiff, so that they can hold the contact assembly 36 in such a mounting position in which at the same time with the closing of the housing cover 16, the housing connector 34 is mounted. The connection sections 30 are soldered or pressed into the conductor carrier 14 and optionally have a strain relief shown in the figures.

The trough-shaped contact carrier 38 is aligned so that its cavity formed by the edge 42 58 is directed upward. In the cavity 58, a fluid 60 is filled, which later forms the seal 40 for sealing the contact assembly 36 against the housing-side connector part 46.

2 shows the completely assembled housing 10 with lid 16, heat sink 24 and housing plug connector 34. The housing 10 is in particular a housing of an electronic control unit. Such controllers are known in vehicles, especially motor vehicles, as an engine control unit, as a transmission control unit, etc.

The seal 40 seals the housing-side connector part 46 in Umfangsbe rich of its stamp-like portion 48 against the peripheral edge 42 of the contact carrier 38 from. In addition, the seal 40 seals the housing-side connector part 46 in the region of the openings 54 in its stamp-like portion 48 against the contact carrier 38 and the contact elements 32 from. Fig. 3 shows a detailed view of the assembled housing connector 34 and its electrical connection to a conductor carrier 12, 14 in the housing 10. Fig. 4 shows an alternative embodiment of the housing connector 34 according to a further advantageous embodiment of the invention. The contact arrangement 36 is not supported during assembly or joining via rigid connection sections 30 or supply lines, but rather via a frame 62 on the conductor track carrier 12, 14. The electrical connection of Kontaktan- order 36 and conductor carrier 12, 14 is separated from the some predeterminable stiffness for mounting mechanical connection of contact assembly 36 and conductor carrier 12, 14.

The following steps for producing and mounting the housing plug connector 34 result: The contact elements 32 are injection molded with plastic by means of an injection molding process, the contact carrier 38 being produced. This contact carrier 38 designed as an "encapsulation" is trough-shaped in the direction of the housing-side connector part 46 and thus capable of accommodating fluids (such as adhesively liquid) such as adhesives and sealants which form the seal 40 of the housing connector 34, if appropriate after they have hardened ,

The housing connector 34 preferably has at least one pair of interacting alignment structures for aligning the contact arrangement 36 with the housing-side connector part 46 (not shown), one of the alignment structures on the housing-side connector part 46 and the other of the alignment structures on the contact arrangement 36, in particular are formed on the contact carrier 38. These alignment structures are, for example, conical structures, run-up slopes, etc.

By encapsulating the contact elements 32, a slight tolerance deviation of the positions of the contact elements 32 is achieved to each other. Due to the alignment elements on the contact arrangement 36 and the housing-side connector part 46 or the housing cover 16 is a small tolerance of the free ends (tips) of the contact elements relative to the connector

Collar 52 reached. The overmolded contact elements 32 are soldered via their terminal sections 30 directly or by means of intermediate (rigid) leads on the conductor carrier 12, 14 or pressed into this. Subsequently, the conductor track carrier 12, 14 is mounted in / on the heat sink 24. Thereafter, the vane-shaped contact carrier 38 of the contact elements 32 is filled with a fluid 60 such as adhesive or sealant. Finally, the housing cover 16 is joined to the remaining housing 20 (in this case the heat sink 24). In this case, find the free ends of the contact elements 32 through the apertures 54 in the connector base 50 through into the connector collar 52 into it. In the case of low-viscosity fluids, it is also conceivable first to add the housing cover 16 and then fill in the fluid 60 first.

In the case of pressing in of the contact elements 32 or leads into the conductor carrier 12, 14, the conductor carrier 14, 14 can first be mounted in / on the heat sink 24 and then held by means of contact carrier 38 contact elements 32 are pressed into the conductor carriers 12, 14.

Shortly before the end position when joining the housing cover 16, the underside of the connector base 50 is immersed in the tub structure of the contact carrier (contact element encapsulation) 38 filled with fluid 60 (such as adhesive or sealing compound). In this case, the contact carrier 38 is aligned with the housing cover 16 or on the housing-side connector part 46. The adhesive, or the sealant seals the openings 54 in the connector base 50 against the contact elements 32, without the free ends of the contact elements 32 would have been smeared above. Due to the large area between the trough-shaped contact carrier 38 and the connector base 50, the sealing connection / adhesive connection is additionally able to absorb insertion forces and to keep it away from the connection point of the contact element 32 to the conductor carrier 12, 14. The adhesive, or the sealant is crosslinked after joining at room temperature or in the oven. Of course, other types of networking are conceivable.

The housing connector 34 shown in FIGS. 1 to 4 has the following properties or advantages: - The housing connector 34 is a sealed connector that allows the tightness of the housing 10 without plugged mating connector, - The housing connector 34 takes the insertion forces when plugging or

Pulling off the mating connector and keeps these forces, in particular from the junction between contact elements (pins) 32 and conductor track 12, 14 and away

- The housing connector 34 is characterized by an acceptable positional tolerance of the contact elements 32.

Claims

claims

1 . A housing connector (34) for external contacting of a circuit arranged in a corresponding housing (10), with a contact arrangement (36) having a contact carrier (38) and at least one in the contact carrier (38) held contact element (32), a housing side Connector part (46) with at least one opening (54) through which the contact element (32) extends into the outer region (56) of the housing (10) and at least one contact arrangement (36) against the housing-side connector part (46) sealing gasket ( 40), characterized in that the contact carrier (38) for receiving a seal (40) forming fluid (60) as a trough-shaped contact carrier (38) with a peripheral edge (42) is formed and that the housing-side connector part (46) a stamp-like formed portion (48) in which the aperture (54) is formed, wherein this portion (48) in the mounted state of the housing connector (34) in the cavity (58) of the trough-shaped carrier (38) engages.

2. housing connector according to claim 1, characterized in that the at least one contact element (32) in the contact carrier (38) is sealed fluid-tight.

3. housing connector according to claim 1 or 2, characterized in that the seal (40) the housing-side connector part (46) in the peripheral region of its stamp-like portion (48) against the peripheral edge (42) of the contact carrier (38) seals.

4. housing connector according to one of claims 1 to 3, characterized in that the seal (40) the housing-side connector part (46) in the region of at least one opening (54) in its stamp-like portion (48) against the contact carrier (38) and / or the at least one contact element (32) seals. Housing connector according to one of claims 1 to 4, characterized in that the stamp-like formed portion (48) of the housing-side connector part (46) is designed as a connector base (50) on the outside of the housing in a connector collar ( 52) of the housing-side connector part (46) passes.

Housing connector according to one of the preceding claims, characterized in that a plurality of contact elements (32) and one of the number of contact elements (32) corresponding number of openings (54) are provided.

A housing connector according to any one of the preceding claims, characterized by at least one pair of interacting alignment structures for aligning the contact assembly (36) with the housing-side connector portion (46), one of the alignment structures on the housing-side connector portion (46) and the other of the alignment structures on the contact assembly (36) is formed.

Housing (10) for accommodating a circuit arrangement, in particular a circuit arrangement arranged on a printed circuit board carrier (12, 14), having at least one housing plug connector (34) in a housing wall (44) of the housing (10), characterized in that the housing plug connector (34) is formed according to at least one of the preceding claims, wherein the housing-side connector part (46) is integrally formed in the housing wall (44).

Housing according to claim 8, characterized by a housing cover (16), wherein the housing wall (44) of this housing cover (16) is formed.

0. Housing according to claim 9, characterized in that the housing cover (16) opposite housing wall is formed as a heat sink (24) to which at least one component of the circuit arrangement is thermally attachable.