Abstract:
The invention relates to a plug connector arrangement with a two-part mating halves ( 1, 29 ), in which a first mating half ( 1 ) can be joined to a second mating half ( 29 ) via a plug-in control ( 7 ). The plug-in control ( 7 ) has a lever arm ( 2 ) pivotally mounted on a mating half ( 1 ) that controls a gearing region ( 9, 36, 37 ), forcibly actuating the mating halves ( 1, 29 ). The lever arm ( 2 ) is provided on one side on the mating half ( 1 ) and in addition to its pivot movement ( 8 ) is mounted via a pivot support ( 10 ) on the mating half ( 1 ) to ensure that the mating halves and the electrical connections are securely joined, despite simple construction, whereby the invention may be used in as many different ways as possible.

Description:
BACKGROUND OF THE INVENTION  
         [0001]    The invention relates to a plug connector arrangement, and more specifically, to a plug connector arrangement with a two-part housing in which a first mating half can be joined to a second mating half via a plug in control.  
         DESCRIPTION OF THE PRIOR ART  
         [0002]    In a plug connector arrangement of the type known from EP 556 762 A1, a toothed rack portion is provided on the second mating half and a lever arm is provided on the first mating half. The lever arm has a pinion portion in the vicinity of its fulcrum. In an open position, the lever projects substantially upwards and the pinion portion can engage in the toothed rack portion by slight pivoting of the lever in the direction of the closed position. As a result of further pivoting of the lever, the second mating half is pulled towards the first mating half so that contact pins at the base of the second mating half are inserted into receptacle contacts of the first mating half to form an electrical connection.  
           [0003]    The lever extends on two opposing external sides of the first mating half so that the mating halves are guided towards one another without being tilted and in a straight line,. Toothed rack portions are provided on the second mating half on respective opposing sides accordingly. Both lateral lever portions are connected to one another by a lever bridge extending on the outside via the mating halves. The cableextends laterally perpendicular to the mating direction of the two mating halves. A similar generic plug connector arrangement is described in DE 8714016 U1.  
           [0004]    A problem exists in that while the lever mechanism, overcomes the mating forces, additional installation space is required for the lever mechanism.  
         SUMMARY OF THE INVENTION  
         [0005]    An object of the present invention is to provide a plug connector arrangement of the type described such that the mating halves and the electrical connections are securely joined, despite simple construction, whereby the invention may be used in as many different ways as possible.  
           [0006]    This and other objects are achieved with a generic plug connector arrangement where the lever arm is provided on one side on the mating half, and in addition to its pivot bearing, is mounted via a pivot support on the mating half. Therefore, the exit of the line or cable from the mating half supporting the lever can be selected relatively freely at the end faces of the mating half. They can branch off from the end faces, which are located in the pivot sector of the lever. For example, a line exit can extend into the joining direction of the two mating halves. As a result, wider cables with lines can be used, such as flat foil conductor connections.  
           [0007]    The mating halves may also be joined to the lever arm provided on a side of the mating half. In this case, the pivot support transmits actuating forces and transverse forces between the two mating halves and the mating halves are moved towards one another in a relatively straight, untilted manner. The pivot supports can extend over the entire pivot range of the lever arm, ensuring effective support of the actuating and/or joining forces in each desired angular position of the lever arm. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0008]    Embodiments of the invention will be described hereinafter and shown in the drawings, in which:  
         [0009]    [0009]FIG. 1 shows a perspective view of a first mating half wherein the lever arm of a plug connector arrangement is in the closed position in accordance with a first embodiment,  
         [0010]    [0010]FIG. 2 shows a perspective view of the first mating half wherein the lever of FIG. 1 is in the open position,  
         [0011]    [0011]FIG. 3 shows a partial longitudinal section through a second mating half for a pluggable connection according to the invention along the line III-III in FIG. 5,  
         [0012]    [0012]FIG. 4 shows a longitudinal section through a second mating half for a pluggable connection according to the invention along the line IV-IV in FIG. 5,  
         [0013]    [0013]FIG. 5 shows a straight plan view of the top of a second mating half,  
         [0014]    [0014]FIG. 6 shows a perspective view of a lever arm according to a second embodiment of the invention,  
         [0015]    [0015]FIG. 7 shows a perspective view of the lever arm of FIG. 4, shown tilted by 180° with respect to FIG. 4,  
         [0016]    [0016]FIG. 8 shows a perspective view of a second mating half without the lever arm in accordance with the second embodiment according to the invention,  
         [0017]    [0017]FIG. 9 shows a bottom view of the first mating half of FIG. 6 with the attached lever arm of FIGS. 4 and 5, and  
         [0018]    [0018]FIG. 10 shows a cross-sectional view of the first mating half with the lever arm of FIG. 9 tilted by 90° with respect to FIG. 9. 
     
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT  
       [0019]    [0019]FIGS. 1 and 2 show a first mating half with the lever arm attached thereto. The first mating half  1  has six sides. The lever arm  2  is mounted on one of the large sides, namely the lever side  3 . The large parallel side  6  opposing the large side  3  does not have a lever. The narrow longitudinal sides  4  or the narrow end faces  5  are not touched by the lever arm  2 .  
         [0020]    The lever arm  2  is part of a plug-in control  7  and is rotatably mounted via an axle  8  on the first mating half  1 . A gearing portion  9  on the lever arm, which covers a specific sector and is shown schematically in FIGS. 1 and 2 by dashed lines separate from the rest of the lever arm  2 , partially extends about the axis  8 . The gearing portion  9  can, for example, have teeth of a toothed wheel pinion as described in more detail hereinafter.  
         [0021]    The axle  8  forms a pivot bearing from which the lever arm  2  extends substantially radially outwards. A pivot support  10  is provided near the axle  8 . The radial portion of the lever arm  2  is mounted on the mating half  1  by the pivot support  10 .  
         [0022]    The pivot support  10  is designed as a curved guide rail  11  which is formed on the first mating half  1  and extends substantially concentrically about the axis  8 , almost over the pivot range of the lever arm  2  about the axis  8 .  
         [0023]    The guide rail  11  is received in a guide groove  12  of the lever arm  2 . The guide rail  11  has a substantially L-shaped profile in cross-section in which the guide groove  12  engages with interlocking fit from behind, viewed in the direction parallel to the extension of the shaft  8 .  
         [0024]    A guide portion  13 , which extends from the radial direction laterally in the pivot direction, is formed on the lever arm  2  laterally offset to the radial direction of extension of the lever arm  2 . The guide groove  12  is formed partially in the region of the guide portion  13 . Guide groove  12  and guide portion  13  are provided substantially in a grip region for a user of the lever, viewed in the radial direction of extension of the lever arm. The grip region  14  is formed in the present case as an enlarged actuation region.  
         [0025]    [0025]FIG. 1 shows the lever arm  2  in a closed position, while FIG. 2 shows it in an open position. In the open position the lever arm is attached to a wall ledge  17  which delimits the pivot range. In the direction of the closed position, the lever arm  2  is attached to a latching knob  18  which can be overcome by moderate force expenditure in the direction of the closed position.  
         [0026]    In the open position, the guide portion is still engaged with the guide rail  11 , while the remaining radial region of the lever arm  2  is arranged outside of the extension of the guide rail  11 . The closed position is restricted from the open position by a latch  19  and from the opposing side by a catch  20 . The grip region  14  with the guide portion  13  of the lever comes to rest with interlocking fit between latch  19  and catch  20 .  
         [0027]    The latch  19  is designed as a latching clip, which extends substantially tangentially to the pivot direction and is formed integrally with the mating half  1 . It may easily be pushed in merely by pivoting from the open position to the closed position, so it can be overcome and springs back again in the closed position, so it rests with its end face on the lever arm  2  and prevents pivoting back. In this position it has to be pushed in manually toward the interior of the housing in order to pivot back the lever arm  2 .  
         [0028]    The catch  20  is provided as a spring clip  20  formed as one piece with the mating half  1  and externally delimits the pivot range of open position and closed position. In the position shown in FIG. 1, the latch  19  can be pushed manually towards the interior of the housing, so the lever arm  2  can also be pivoted to the left in the direction of the arrow  21 . From there it is in an assembly position  47  in which it can be detached from the mating half  1 . The dot-dash line  47  indicates the assembly position.  
         [0029]    If the lever arm  2  is pivoted to the left in the direction of the arrow  21 , then it is disengaged from the guide rail  11 . From this position it can overcome the catch  20  merely by pivoting in the direction of the arrow  22  and can be rotated in the pivot range.  
         [0030]    In contrast, the arrows  22  and  23  mark the pivot range. The adjacent dashed lines schematically show the alignment of the lever in the open and closed direction.  
         [0031]    A recess  24 , through which a contact foil portion  25  with a plurality of lines  26  extends outwards from the mating half  5 , is provided substantially in the sector of the pivot range on the narrow end face  5  of the first mating half  1 . Each of the lines  26  is conductively connected in the interior of the mating half  1  to a lead sleeve and secured thereto.  
         [0032]    One of the narrow longitudinal sides  4  of the first mating half  1  has a large lead-in aperture  45 , which is adjacent to the recess  24 . The contact foil portion  25  can be inserted into the lead-in aperture  45  and connected to line sleeves  27  in the mating half  1 . The contact foil portion  25  can optionally be attached to a foil holder  46 , which can then be introduced together with the foil portion  25  into the lead-in aperture  45  and the mating half  1 . The foil holder can also have lead sleeves  27 .  
         [0033]    The double arrow  28  marks the direction of movement along which the first mating half  1  can be moved relative to a second mating half  29  to produce an electrical contact between the lines of the respective mating halves by actuating the gearing region  9 , or to break such a contact again. Consequently, a translatory displacement movement of the mating halves relative to one another is produced by rotation of the lever arm  2 .  
         [0034]    FIGS.  3  to  5  show a second mating half  29  which together with the embodiments of the first mating half  1 , with lever arm shown here, form the pluggable connection arrangement according to the invention. The second mating half  29  has a receiving chamber  30  into which the first mating half  1  can be inserted in a translatory manner along the arrow  28  through an aperture  31 .  
         [0035]    Six pin contacts  33  arranged parallel to one another in two rows are provided in the base region  32 . The pin contacts  33  project into the interior of the receiving chamber  30  parallel to the insertion direction  28 . Each pin contact  33  is connected to a continuing printed circuit board contact  34 . The arrangement of the pin contacts  33  corresponds to the arrangement of the line sleeves  27  of the first mating half  1 .  
         [0036]    The cross-section of the receiving chamber  30  with the aperture  31  substantially corresponds to the contour of the first mating half  1  with attached lever arm  2 . A toothed rack portion  36  is formed on two opposing walls  35  in the interior of the receiving chamber  30 , which portion  36  extends parallel to the insertion direction  28 . The toothed rack portion  36  is a component of the gearing region and can be brought into engagement with the gearing portion  9  of the first mating half  1 .  
         [0037]    Instead of the two illustrated toothed rack portions  36  on two walls  35 , which are provided for two separate levers on one side, just one toothed rack portion  36  can also be provided which cooperates with the gearing portion  9  of the lever arm  2 .  
         [0038]    [0038]FIGS. 6 and 7 show a lever arm for a second embodiment of the invention. Identical reference numerals denote identical or similar parts to the first embodiment, so reference is made in this regard to the preceding embodiment if no explanations to the contrary are given hereinafter.  
         [0039]    The gearing portion  9  has two pinion teeth  37  which are formed on a base plate  38  of the lever arm  2 .  
         [0040]    A hole  39  is provided centrally which has an approximately keyhole-type cross-section. At the side of the pinion teeth  37  of the lever arm  2  a finger-like region of the hole  39  extends radially into a sector-like engaging recess  40  behind an overleaf round ledge  41  of the hole  39 .  
         [0041]    [0041]FIG. 8 shows a first mating half  1  of the second embodiment, which can be used together with the lever arm  2  shown in FIGS. 6 and 7. Reference is similarly made to the configurations of the first embodiment with respect to identical reference numerals.  
         [0042]    Wall struts  42  projecting substantially perpendicularly from the housing sides are provided in the bottom region of the mating half  1  on the outside. The wall struts  42  substantially correspond to the internal contour of the receiving chamber  30 .  
         [0043]    On the side  3  to which the lever arm is fastened, the axle  8 , which has a radially projecting nose  43 , extends perpendicularly outwards.  
         [0044]    [0044]FIGS. 9 and 10 show the lever arm  2  and the mating half  1  of FIGS.  6  to  8  in the assembled state.  
         [0045]    The arrangement of line sleeves  27  on the bottom of the mating half  1  can be seen in FIG. 9. The arrangement corresponds to the arrangements of the pin contacts  33  of the second mating half  29 .  
         [0046]    Two support walls  44  are formed on the outside on the side  6  remote from the side  3  supporting the lever arm  2 . The support walls  44  extend parallel to the movement direction  28  of the two mating halves  1  and  29 . When the mating halves  1  and  29 are joined together, they rest on the end face of the wall of the second mating half  29 . They are arranged on the side  6  in such a way that when the first mating half  1  is inserted into the second mating half  29  they slide freely past the second toothed rack portion  36 .  
         [0047]    In the closed position of the lever  2  shown in FIG. 10 it can be seen that the nose  34  engages behind the round ledge  41 , so this region of the lever arm is fastened with interlocking fit to the first housing part  1  in the pivot range between open and closed position. If, on the other hand, the lever is rotated toward the assembly position shown, then the nose  43  arrives in the region of the finger-like engaging recess  40 . This type of fastening corresponds to a bayonet-type closure.  
         [0048]    The mode of operation of the embodiment according to the invention shown in the drawings will be described in more detail hereinafter.  
         [0049]    The lever is pushed axially onto the axle  8  in the angular position of the assembly position. In the process, the nose  43  penetrates through the engaging recess  40 . The catch  20  is overcome by pivoting the lever in the direction of the closed position. In the process, the nose  43  engages behind the round ledge  41  and the guide groove  12  is pushed onto the guide rail  11  with interlocking fit. By pushing down the catch  9 , the lever arm  2  can be pivoted into the open position.  
         [0050]    The first mating half  1  with the lever arm  2  is pushed with interlocking fit with its bottom in the insertion direction  28  through the aperture  31  into the receiving chamber  30  until the first pinion tooth  37  engages with the toothed rack portion  36 . From this position, the lever is slowly moved from the open position into the closed position. Owing to the rotational movement of the lever, the two mating halves  1  and  29  are forcibly moved towards one another in a translatory manner with the aid of the gearing region  9  and  36 . The pin contact  33  is slowly and accurately guided into the line sleeves  27 , so that an electrical contact is produced.  
         [0051]    The actuating forces and operating forces are supported via the pivot supports  10  during pivoting of the lever. An additional auxiliary position is provided by the support walls  44  by which forces of the first mating half  1  are supported on the second housing part. Despite the one-sided arrangement of the lever with the gearing in the region  9 , straight introduction of the housing parts is possible.  
         [0052]    The contact foil portion  25  leading out of the mating half  1  can project from the narrow end face  5 , even in regions which are located in the sector of the pivot range of the lever.  
         [0053]    Alternatives are possible and within the spirit of the invention. For example, the pivot supports can also advantageously be formed as guide rails along which the lever arm can be pivoted. Therefore, the lever arm is guided over its pivot range. The guide rails serve to support forces and hold the pivoting arm on the desired pivot path.  
         [0054]    The guide rail can also be received in a guide groove of the lever arm. The guide groove ensures interlocking action of the lever arm on the guide rail. The forces of the lever are supported by the mating half via the positive interlocking.  
         [0055]    A guide portion of the lever arm acting on the guide rail can be arranged along the pivot path at least partially offset to the radial direction of extension of the lever arm. The offset arrangement allows transmission of forces via the guide portion. This allows a larger connection region between the guide rail and the lever arm. In some embodiments, the lever arm can be pivoted to such an extent that in extreme positions the radial direction of extension is located next to the guide rail at the side, while the guide portion still actively transmits the forces to the guide rail.  
         [0056]    In a variation of the invention, the lever arm can engage with interlocking fit behind the pivot support in the direction of the pivot axis. The positive locking allows support of forces in the direction of the pivot axis and safeguards the lever against detachment from the mating half in this direction.  
         [0057]    The pivot supports can also be arranged in the grip region of the lever arm for a user, viewed in the radial direction. Therefore, the forces introduced by a user directly into the grip region may be transmitted via the shortest route to the mating half. As a result, the pivot bearing or the gearing region is relieved of these forces relatively effectively.  
         [0058]    In one particular manner, the lever arm can be pivoted between an open position and a closed position of the two mating halves, and the assembly position is provided outside of the pivot range. Therefore, the lever arm is securely attached to the mating half in the pivot range between open and closed position. Upon leaving the pivot range, it arrives in an assembly position in which it can be detached from the lever.  
         [0059]    In a variation of the invention, a catch can be provided between the assembly position and the pivot range between open position and closed position. The catch can only be overcome by a pivoting movement of the lever arm from the assembly position in the direction of the pivot range. This allows pivoting of the lever from the assembly position to the pivot range or actuation range of open position and closed position. It prevents undesirable pivoting of the lever out of the actuation range.  
         [0060]    In another particular manner, a latch can be provided between an open position and a closed position of the lever arm, which can only be overcome by pivoting movement of the lever arm from the open position in the direction of the closed position. This ensures securing of the lever arm in the closed position and therefore securing of the two mating halves and their connection lines to one another. The lever may be pivoted with moderate force expenditure from the open position to the closed position. Undesirable return pivoting from the closed position into the open position is, however, prevented. For this purpose, a separate securing, for example, can be released.  
         [0061]    The pivot bearing of the lever arm can have a bayonet-type closure via which the lever arm, pivoted into an assembly position, can be detached from the mating half. This allows simple assembly of the lever, which is secured on the mating half after insertion of the bayonet-type closure parts by pivoting.  
         [0062]    A support wall, which transmits lateral forces between the mating halves, can advantageously be provided between the first and the second mating half on the housing side that opposes the housing side supporting the lever arm. Correct positioning of the two mating halves, one inside the other, is possible with the aid of the support wall. The support wall supports lateral forces between the mating half which occur during actuation of the lever arm. This favours straight movement of the two mating halves towards one another.