DE102009008352A1 - Plug connection device for an electronic module - Google Patents

Abstract

The invention relates to a plug connection device (32) having at least one plug element (18) arranged on a first part (12) of the electronic module (10) and a mating plug element (16) arranged on a second part (26) of the electronic module (10). wherein the one plug element (18) and / or the mating plug element (16) with respect to the first part (12) or the second part (26) in at least one direction (54, 56) perpendicular to a plug-in direction (62) via a bearing (64 ) is floating. According to the invention it is provided that in the at least one direction (54, 56) is defined a zero position of the plug element (18) and / or the mating connector element (16) by a bias of the bearing (64). The invention further relates to a method for mounting a plug connection device (32).

Description

The The invention relates to a plug connection device, in particular for an electronic assembly of a commercial vehicle, with one arranged on a first part of the electronic assembly Plug element and one on a second part of the electronic Assembly arranged mating connector element, about the in the assembled state an electrical connection produced is, wherein the at least one plug element and / or the mating connector element opposite the first part or the second part in at least one direction perpendicular to a direction of insertion over a Bearing floating.

The Invention further relates to a method for mounting a plug connection device, in particular for an electronic assembly of a commercial vehicle, with at least one on a first part of the electronic assembly arranged plug element and one on a second part of the electronic Assembly arranged mating connector element, about the in the plugged state made an electrical connection is, wherein in the merging of the connector device in a plugging direction, the at least one plug element opposite the first part of the electronic module and / or the mating connector element opposite the second part of the electronic assembly moved in at least one direction perpendicular to the direction of insertion becomes.

Especially in the context of commercial vehicles find generic Plug-in devices for electronic assemblies application. Such electronic assemblies are for example part of mechatronic assemblies and are preferably on housings or other components of mechanical assemblies. So can be provided that the complete electronic assembly for example, on an inner side of a housing cover or an upper housing part by means of a Screw connection is attached. The housing cover is in turn on a lower housing part or other component of attached mechanical assembly. To an electrical connection between components of the electronic assembly and components the mechanical assembly, such as sensors and valves, The electronic assembly includes one or more the generic connector devices. In this case, usually a plug element of the connector device fixed to the upper housing part and with the electronic Assembly coupled. A corresponding mating connector element of Plug connection device for mating with the plug element is usually attached to the lower housing part and for example with sensors or valves of the mechanical assembly coupled. The assembling or assembling the corresponding housing parts of the electronic and mechanical assembly is carried out in a conventional manner Aligning the upper housing part with respect to the lower housing part, wherein the male and the mating connector element the connector device, for example via dowel pins and chamfers led to each other become. The juxtaposition of the connector elements for the production The electrical connection is therefore due to these covering housing parts exclusively via the aforementioned dowel pins and insertion bevels and without visual contact with the Plug connection, so to speak "blind". However, show both the upper housing part and the lower housing part usually manufacturing and / or construction-related dimensional deviations or high tolerances in all three dimensions or spatial directions on, whereby the juxtaposition of the connector elements difficult or becomes impossible. Therefore, there is a danger that contacts the connector elements when assembling the modules damaged if their contacts are not exactly in position be guided. Furthermore, the upper housing part and the lower housing part during assembly over to seal a gasket while the plug elements have to be led together at the same time, whereby the assembly is further complicated. To this problem was partially resolved to solve the Do not connect plug elements "blindly", but the connector elements already before mounting the housing parts or the other components to be coupled together. For example can preassembled a male member to the upper housing part be. The other connector element or the mating connector element is directly under visual contact with the pre-assembled connector element coupled. The mating connector element is this Case of a loose, coupled with a cable or with flex cables Mating connector element. Only after the plug element and the mating connector element coupled together to allow an electrical connection, Also, the corresponding housing parts with each other coupled. However, in this case, the problem is that the cables used for the loose mating connector element or flex cables by assembling the housing parts Arrange uncontrolled within the assembly and thereby possibly can be trapped. This can damage caused by the cables or flex cables used, whereby in the worst case, an interruption of the electrical connection is caused. Furthermore, this solution requires one additional assembly step in coupling the connector device.

Generic connector devices are for example from the DE 10 2007 009 644 A1 known.

Of the Invention is therefore based on the object, the generic Connector devices and methods of mounting such connector devices in such a way that occurring loads due to vibrations to be as low as possible in the mounted state.

These The object is achieved by the features of the independent claims solved.

advantageous Refinements and developments of the invention will become apparent the dependent claims.

The Plug-in device according to the invention builds on the generic state of the art thereby on that in the at least one direction a zero position of the plug element and / or the mating connector element defined by a bias of the bearing is. In this way, occurring vibrations can be damped be, with the position of the connector device during the vibration reduction essentially defined by the zero position is.

Usefully can be provided that the plug element in the first Direction and the mating connector in the second direction floating are stored. By dividing the storage on the plug element and the mating connector member, wherein the male member and the mating connector member are floating in different directions, the used bearing mechanism can be kept simple and possibly identical bearing mechanisms for the plug element and the Mating connector element can be used, then, for example, only be arranged rotated 90 degrees against each other.

advantageously, it can be provided that the plug element and / or the mating connector element stored floating in the first direction and in the second direction are. By providing a simultaneous displaceability of the plug element and / or the mating connector element in both the first direction as well as in the second direction can optionally not stored Element easier pre-assembled or the used Bearing in the plane perpendicular to the direction of insertion have smaller dimensions, because a tolerance compensation in a certain direction at the same time over the plug element and can be done via the mating connector element.

It can be provided that the storage in the first direction and the second direction is done separately. That way you can the individual components of the storage as simple as possible be constructed and, for example, in an identical way for both Directions are provided perpendicular to the direction of insertion.

alternative can be provided that the storage in the first direction and the second direction is combined. By the combined storage the number of parts necessary for storage can be reduced, so that the assembly or the structure of the connector device on the first part or on the second part of the assembly is simplified.

Preferably can be provided that the bearing an elastic compensation element and a holding device. With the help of the elastic compensation element and the holding device is simply a floating one Storage feasible.

Especially it is preferably provided that the plug connection device comprises insertion bevels. Through the insertion bevels can in the merge the connector device by the floating storage automatically provided in the plane perpendicular to the direction of insertion game to compensate for the existing tolerances between the plug element and the mating connector element while the first part and the second part stay aligned, causing unwanted force peaks that damage could lead to the connector device, be avoided.

advantageously, It can be provided that the movement of the plug element and / or the Mating connector element perpendicular to the plug-in direction by holding stops is limited. In this way, an accidental joining of the Assembly without closing the connector device effectively avoided, since the plug element and the mating connector element due to the holding stops not in Steckrich direction can move past each other when the first part and the second part are aligned against each other.

The assembly according to the invention, which is in particular an electronic assembly of a commercial vehicle, comprises the plug connection device according to the invention. For example, one of the plug elements is connected to electronics of the electronic module, for example a printed circuit board. The electronics can furthermore be connected to a first part, for example an upper housing part or an upper housing part. On the other hand, the other is the Steckerele ments with a conductor carrier or a flexible printed circuit board or a stamped grid, which is incorporated, for example, in a plastic holder, electrically coupled. For example, one of the plug elements can be coupled to a line carrier, which in turn is attached to a second part, for example a lower housing part or a lower housing part, or to another component.

The inventive method for mounting a connector device builds on the generic state of the art on, that in the at least one direction a zero position the plug element and / or the mating connector element by a Pretension of the bearing is defined. In this way, the Advantages and special features of the invention Plug connection device also in the context of a method for Implementation of the connector device implemented. this is also valid for the following particularly preferred embodiments the method according to the invention.

This is usefully developed by the fact that the Plug element relative to the first part in the first Direction is moved and that the mating connector element opposite the second part is moved in the second direction.

advantageously, can be provided that the plug element or the mating connector element opposite the first part or the second part is moved in the first direction and in the second direction.

Preferably is provided that the plug element and the mating connector element when assembling the electronic module in the plug-in direction perpendicular to the insertion direction by insertion bevels be centered.

Especially it is preferred that the movement of the plug element and / or the Mating connector element perpendicular to the plug-in direction by holding stops is limited.

The Invention will now be described with reference to the accompanying drawings preferred embodiments explained by way of example.

It demonstrate:

1 a schematic representation of a connector device according to the invention according to a first embodiment in cross section, which is suitable for carrying out the method according to the invention; and

2 a schematic representation of a plug connection device according to the invention according to a second embodiment in a plan view, which is suitable for carrying out the method according to the invention; and

3 a schematic representation of a plug connection device according to the invention according to a third embodiment in a plan view, which is suitable for carrying out the method according to the invention.

In In the following drawings, like reference characters designate the same or similar parts.

1 shows a schematic representation of a connector device according to the invention 32 according to a first embodiment in cross section, which is suitable for carrying out the method according to the invention. In this case, the plug connection device according to the invention 32 as a flat connector or round plug connection forms and in an electronic module 10 a commercial vehicle arranged. The assembly 10 may be one or more of the connector devices according to the invention 32 record, with the sake of simplicity, only a connector device 32 in 1 is shown. The plug connection device 32 has an integrally manufactured connector element 18 and a mating connector element 16 on, in the assembled state, an electrical connection can be produced. The mating connector element 16 in this case comprises two connector element components movable relative to each other within a game 36 and 38 namely, a first male member component 36 and a second connector element construction part 38 , Preferably, the male member components are 36 . 38 in a plug-in direction 62 , z. B. the z-direction, the connector device 32 movable relative to each other within the game. To the relative mobility of both connector element components 36 . 38 in the plugging direction 62 to allow, are the plug element components 36 . 38 with a guide device 42 fitted. In particular, the guide device 42 formed so that the first connector element component 36 with a stop surface 44 of the first connector element component 36 to the game up to a stop surface 46 the second connector element component 38 in the direction of the second connector element component 38 is movable. Stand the stop surface 44 of the first connector element component 36 and the stop surface 46 the second connector element component 38 in contact with each other, the first and second male member components are 36 . 38 maximally pushed into each other or pushed. Furthermore, the guide device 42 formed so that the first connector element component 36 to the game of the second connector element component 38 is moved away until a stop 48 of the first plug management component 36 with another stop surface 50 the second connector element component 38 on a fastening device 24 is planted, in essence, by the management facility 42 in connection with the stop surface 50 and the stop 48 is defined. In this case, the first and second male member members are 36 . 38 maximum apart. Furthermore, the first and second male member components take 36 . 38 a spring element 22 , in particular a helical spring, on which the first and second connector element component 36 . 38 in the uninstalled state biases against each other, ie the stop 48 of the first connector element component 36 with the stop surface 50 the second connector element component 38 brings into contact. In this state, the spring element 22 a certain spring length 14 on, resulting from the con structive configuration of the first and second connector element component 36 . 38 , in particular the stop surface 50 and the stop 48 , results. The mobility of the two connector element components 36 . 38 in the direction of insertion 62 is optional and can be omitted. The plug element 18 includes plug cavity contact elements not shown in the corresponding pin contact elements of the mating connector element 16 in a plug-in direction 62 are plugged in to make the electrical connection. In addition, the first connector element component comprises 36 a contact surface 40 for attachment to a first part 12 the electronic module 10 , For example, an upper housing component, wherein the contact surface 40 on one of the stop surfaces 44 opposite side of the connector element component 36 is provided. Furthermore, the plug element 18 via a corresponding attachment with a cable carrier 20 or another part of the assembly 10 immobile coupled. In addition, the plug element 18 with on or in the management carrier 20 extending lines connected via corresponding connector contact elements. The management carrier 20 is still with a second part 26 , For example, a lower housing part or a lower housing part or other component, immovably coupled. The mating connector element 16 is preferably electrically coupled to a printed circuit board, not shown, wherein the circuit board in turn with the upper housing part or the first part 12 or another component can be coupled. Furthermore, each plug contact elements of the mating connector element 16 electrically coupled with not shown lines of the circuit board. How out 1 it can be seen have the male element 18 and the mating connector element 16 each insertion bevels 28 in the form of sliding surfaces or chamfers, whereby mating of the connector elements 16 . 18 is relieved. In addition, the first and the second part 12 . 26 , beispielswei se as the upper and lower housing part 12 . 26 , Coupled together in the installed state, in the case shown, this coupling is not yet made. Between the first part 12 and the second part 26 may be provided in the installed state, a seal, not shown, which prevents ingress of moisture. One on the first connector element component 36 engaging elastic compensation element 52 , which is in the plane perpendicular to the direction of insertion 62 at the first part 12 via a holding device 58 is supported, is shown in dashed lines. About the elastic compensation element 52 becomes a force in the plane perpendicular to the direction of insertion 62 on the mating connector element 16 exercised, if the mating connector element 16 when merging the assembly 10 due to the insertion bevels 28 in the plane perpendicular to the direction of insertion 62 from his through the elastic compensation element 52 defined zero position is deflected. The mating connector element 36 So is in the plane perpendicular to the direction of insertion 62 stored under a bias to a zero position floating, wherein the contact surface 40 in particular not opposite to the first part 12 is fixed. Alternatively, it would also be conceivable elastic compensation element 52 or an additional additional elastic compensation element for floating mounting of the plug element 18 provided. Due to the floating storage with a bias defined zero position in the plane perpendicular to the direction of insertion 62 Be after mounting on the connector device 32 acting vibration forces in the plane perpendicular to the direction of insertion 62 collected and damped, reducing the burden on the connector device 32 is reduced. Is the connector device 32 also in the plug-in direction 62 movable, so can the vibration load for the connector device 32 be reduced again.

The method for mounting the illustrated connector device 32 into the assembly 10 is designed as follows. First, for example, the printed circuit board, not shown, on the upper housing part 12 attached and in electrical connection with the mating connector element 16 brought. Furthermore, the plug element 18 on the cable carrier 20 appropriate. The management carrier 20 is on the lower housing part 26 fixed. Thus, the plug element 18 on the lower housing part 26 prefixed, while no fixed coupling between the mating connector element 16 and the first part 12 consists. The mating connector element 16 will now be in the plug element 18 at least partially inserted for the production of the electrical connection, wherein subsequently the first part 12 to the second part 26 led or with the second part 26 is installed. This will get the first part 12 with the contact surface 40 of the first connector element component 36 of the mating connector element 16 in touch, as in 1 is shown. When aligning the first part 12 opposite the second part 26 tolerances in the plane perpendicular to the direction of insertion 62 visible by the fact that the plug element 18 and the mating connector element 16 not exactly aligned with each other. When merging the first part 12 and the second part 26 However, this alignment is about the insertion bevels 28 manufactured, wherein the mating connector element 16 in the plane perpendicular to the direction of insertion 62 and guided by the floating bearing is moved, wherein by the deflection of the zero position, a bias in the plane perpendicular to the insertion direction 62 to the plug connection device 32 is created. The first part 12 will continue in the direction of the second part 26 moved and installed with this. As a result, the first connector element component 36 of the mating connector element 16 against the bias of the spring element 22 in the direction of the plug element 18 emotional. The spring force of the spring element 22 is by their change in length 34 increased, whereby the second connector element component 38 completely in the plug element 18 is pushed and due to the bias of the spring element 22 continue in the plug element 18 is pressed. This will cause the electrical connection between the connector elements 16 . 18 by the bias of the spring element 22 ensured, since this the plug elements 16 . 18 by the support on the first part 12 permanently compressed.

2 shows a schematic representation of a connector device according to the invention 32 according to a second embodiment in a plan view, wherein the plug connection device according to the invention 32 is suitable for carrying out the method according to the invention. In addition to the plug connection device 32 are also contact clips 60 represented the plug element. The plug connection device according to the invention 32 includes the elastic compensation element 52 , which is in particular designed to be in at least one direction to the plug 62 the connector device 32 vertical first direction 54 and / or a second direction 56 , z. B. in the x and in the y direction, elastically deform, provided that the elastic compensation element 52 with the first part 12 , For example, a housing part, is brought into abutment. In this way, a zero position of the connector device 32 in the plane perpendicular to the direction of insertion 62 defined and provided a restoring force in the form of a bias, if the connector device 32 is deflected from this zero position. In particular, the elastic compensation element 52 by at least one holding portion connected to the connector device 32 coupled, and an elastic portion that is connected to portions of the first part 12 be brought into contact, be formed, as out 2 is apparent. For this purpose, the first part 12 the holding device 58 with two stops 54 ' . 56 ' include, wherein the retaining stop 56 ' the compensation element 52 can deform such that the compensation element 52 the plug connection device 32 in the second direction 56 with a force applied, and the holding stop 54 ' the compensation element 52 can deform such that the compensation element 52 the plug connection device 32 in the first direction 54 acted upon with a force. This causes the compensation device 52 in that the plug connection device 32 from the equalizer 52 in their zero position, ie in the for the connector device 32 intended target installation position is urged. The elastic compensation element 52 forms together with the stops stops 54 ' . 56 ' a warehouse 64 which is the first connector element component 36 in the first direction 54 and in the second direction 56 floating, whereby a bias occurs, if a deflection from the zero position occurs.

3 shows a schematic representation of a plug connection device according to the invention according to a third embodiment in a plan view, which is suitable for carrying out the method according to the invention. In the illustrated embodiment, the plug element 18 opposite the second part 26 in the first direction 54 and the second direction 56 stored floating. The floating bearing of the mating connector element 18 in the first direction 54 takes place via holding stops 54 ' . 54 '' in the first direction 54 and elastic compensation elements 52 . 66 and other elastic compensation elements 52 ' . 66 ' in the opposite direction. The stops 54 ' . 54 '' define a maximum play of the plug element 18 in the first direction 54 , ie the maximum allowable offset of the plug element 18 opposite the second part 26 , In the second direction 56 becomes one of the floating storage in the first direction 54 separate storage by holding stops 56 ' . 56 '' and an elastic compensation element 68 and another elastic compensation element 68 ' reached. Due to the symmetrical arrangement of the components of the bearing 64 is at deflection of the plug element 18 always from its rest position by at least one elastic compensation element 52 . 52 ' . 66 . 66 ' . 68 . 68 ' caused restoring force that the plug element 18 keeps moving in its zero position. The floating storage can in principle also be provided in another manner familiar to the person skilled in the art. Essential is only the mobility in the plane perpendicular to the direction of insertion 62 ,

The in the above description, in the drawings and in the Claims disclosed features of the invention can both individually and in any combination for the To be essential to the realization of the invention.

10

electronic module

12

first part

14

spring length

16

Mating connector element

18

male member

20

busbar

22

spring element

24

fastening device

26

second part

28

bevels

32

Connector device

34

change in length of the spring element

36

first Plug element component

38

second Plug element component

40

contact surface

42

guide means

44

stop surface of the first connector element component

46

stop surface the second connector element component

48

attack of the first connector element component

50

stop surface the second connector element component

52

elastic compensation element

52 '

additional elastic compensation element

54

first direction

54 '

retaining stop in a first direction

54 ''

Another Hold stop in a first direction

56

second direction

56 '

retaining stop in a second direction

56 ''

Another Hold stop in a second direction

58

holder

60

contact clips of the plug element

62

plug-in direction

64

camp

66

elastic compensation element

66 '

additional elastic compensation element

68

elastic Compensation element in the second direction

68 '

additional elastic compensation element in the second direction

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102007009644 A1 [0004]

Claims (14)

Plug connection device ( 32 ), in particular for an electronic assembly ( 10 ) of a commercial vehicle, with one at a first part ( 12 ) of the electronic assembly ( 10 ) arranged plug element ( 18 ) and one at a second part ( 26 ) of the electronic assembly ( 10 ) arranged mating connector element ( 16 ), via which in the assembled state, an electrical connection can be produced, wherein the at least one plug element ( 18 ) and / or the mating connector element ( 16 ) compared to the first part ( 12 ) or the second part ( 26 ) in at least one direction ( 54 . 56 ) perpendicular to a plug-in direction ( 62 ) about a warehouse ( 64 ) is floatingly mounted, characterized in that in the at least one direction ( 54 . 56 ) a zero position of the plug element ( 18 ) and / or the mating connector element ( 16 ) by a preload of the bearing ( 64 ) is defined. Plug connection device ( 32 ) according to claim 1, characterized in that the plug element ( 18 ) in the first direction ( 54 ) and the mating connector element ( 16 ) in the second direction ( 56 ) are floating. Plug connection device ( 32 ) according to claim 1, characterized in that the plug element ( 18 ) and / or the mating connector element ( 16 ) in the first direction ( 54 ) and in the second direction ( 56 ) are floating. Plug connection device ( 32 ) according to claim 2 or 3, characterized in that the storage in the first direction ( 54 ) and the second direction ( 56 ) separately. Plug connection device ( 32 ) according to claim 3, characterized in that the storage in the first direction ( 54 ) and the second direction ( 56 ) is combined. Plug connection device ( 32 ) according to one of the preceding claims, characterized in that the bearing ( 64 ) an elastic compensating element ( 52 ) and a holding device ( 58 ). Plug connection device ( 32 ) according to one of the preceding claims, characterized in that the plug connection device ( 32 ) Chamfers ( 28 ). Plug connection device ( 32 ) according to one of the preceding claims, characterized in that the movement of the plug element ( 18 ) and / or the mating connector element ( 16 ) perpendicular to the plug-in direction ( 62 ) by holding stops ( 54 ' . 54 '' . 56 ' . 56 '' ) is limited. Assembly ( 10 ), in particular electronic assembly ( 10 ) of a commercial vehicle, with at least one connector according to one of the preceding claims. Method for mounting a plug connection device ( 32 ), in particular for an electronic assembly ( 10 ) of a commercial vehicle, with at least one at a first part ( 12 ) of the electronic assembly ( 10 ) arranged plug element ( 18 ) and one at a second part ( 26 ) of the electronic assembly ( 10 ) arranged mating connector element ( 16 ), over which in the assembled state, an electrical connection is made, wherein in the merging of the connector device ( 32 ) in a plug-in direction ( 62 ) the at least one plug element ( 18 ) compared to the first part ( 12 ) of the electronic assembly ( 10 ) and / or the mating connector element ( 16 ) compared to the second part ( 26 ) of the electronic assembly ( 10 ) in at least one direction ( 54 . 56 ) perpendicular to the plug-in direction ( 62 ) is moved, characterized in that in the at least one direction ( 54 . 56 ) a zero position of the plug element ( 18 ) and / or the mating connector element ( 16 ) by a preload of the bearing ( 64 ) is defined. Method according to claim 10, characterized in that - the plug element ( 18 ) compared to the first part ( 12 ) in the first direction ( 54 ) is moved and - that the mating connector element ( 16 ) compared to the second part ( 26 ) in the second direction ( 56 ) is moved. Method according to claim 11, characterized in that the plug element ( 18 ) or the mating connector element ( 16 ) compared to the first part ( 12 ) or the second part ( 26 ) in the first direction ( 54 ) and in the second direction ( 56 ) is moved. Method according to one of claims 10 to 12, characterized in that the plug element ( 18 ) and the mating connector element ( 16 ) when assembling the electronic assembly ( 10 ) in the plugging direction ( 62 ) perpendicular to the plug-in direction ( 62 ) by insertion bevels ( 28 ) are centered. Method according to one of claims 10 to 13, characterized in that the movement of the plug element ( 18 ) and / or the mating connector element ( 16 ) perpendicular to the plug-in direction ( 62 ) by holding stops ( 54 ' . 54 '' . 56 ' . 56 '' ) is limited.