DE19610958C2 - Multipole connector with spring-cage connections - Google Patents

Description

The invention relates to a multi-pin connector with spring-cage connections for electrical conductors, consisting of one busbar per connector, the one end corresponding contact elements plug-in assigned and the other end of a tension spring for attaching the conductor is arranged where with a preassembled bandage consisting of an assigned tension spring and busbar in each a receptacle of one of all the connector slots Housing, consisting of a lower part and a cover part, positioned one is pluggable.

Such multi-pole connectors are from DE 43 19 018 C1 and DE 93 12 380.9 U1 known. With the known multi-pin connectors are all the essential positioning and holding radio in the lower part of the housing assignments. The pre-assembled combination of tension spring and busbar is taken by itself with an essentially linear insertion movement in  the lower part of the housing designed as a clamping body receptacle is inserted. There after the cover part is placed in a further assembly process. In addition to the Function of closing the assembly opening are only subordinate Clamping functions realized by contouring the lid. This configuration best for the filigree and from complex bent sheet metal sections existing bandage of busbar and tension spring a very long assembly path, while in the second assembly step, only the cover part is placed and must be locked with the housing.

The present invention further relates to a method for populating an all closing places of a multipole connector encompassing housing with an closures for electrical conductors.

The present invention has for its object a multipole Steckver Binder of the generic type and an assembly process for the housing to propose such a connector to make it an essential club to achieve an automated assembly.

The solution according to the invention with regard to the multipole connector results themselves from the characterizing part of claim 1. The invention Solution regarding the procedure results from the characteristic part of the Main procedural claim.

Thanks to the configuration according to the invention, the cover part can now have a zen central function already during the assembly of the bandage consisting of busbar and train the take over, since this bandage is already in the lid during assembly brought and held and positioned in this. It follows another assembly of cover part, busbar and Zugfe during assembly of the. In particular, the handling of the damage-prone Ver Bandes from busbar and tension spring greatly simplified, since only one short assembly movement when inserting into the cover part is to be carried out and then the overall structure thus formed in a further relatively short assembly area movement can be introduced into the lower part. The assembly can be done in one perform uniform assembly step, which leads to a significant simplification leads in the manufacture of such connectors.

Further preferred configurations result from the subclaims. In In an advantageous embodiment, the busbar is significantly wider on both sides than the tension spring, so that the combination of tension spring and busbar by a  inserting the busbar into lateral grooves of the receiving pocket can be positioned. This ensures secure support of the busbar and thus that of it arranged tension spring reached in the receiving pocket.

According to a further preferred embodiment, the bandage is made of Conductor rail and tension spring form elements are provided, which protect the association against Ver push out in the effective direction due to insertion and pulling forces stalten, preferably cranking the busbar or contact surfaces through the contact box forming the plug-side end of the busbar are intended for this. This is a relocation of the pre-assembled Verban of the busbar and tension spring due to insertion movements in the Contact box or actuation forces when actuating the tension spring out closed. Such shaped elements are preferably also close to the Parting plane of the housing between the cover part and lower part, which makes assembly is improved when joining the cover part and lower part.

The ends of the busbar also have a further expedient configuration such form elements for positioning and fixing on the inside the cover pocket elements arranged correspond and thus a further fixation within the pocket mainly in longitudinal allow extension of the busbar.

In a further expedient embodiment, the tension spring, the busbar and the receiving pocket of the cover part corresponding bevels and positioning elements through which the insertion into the receiving pocket strong is simplified. This also increases the safety of automatic assembly.

In a further expedient embodiment, the cover part and the lower part have interlocking contours that correspond to each other when joining the interaction and secure these two parts together. After this Joining the cover part and the bottom part is the inserted association of tension spring and Busbar held so that only the tension spring as intended ela is movable.

The tension spring is useful on the busbar when preassembling the connection of the arranged so that the tension spring against displacement on the Busbar, for example by means of a recess in the busbar for snapping Most of the spring is supported.  

By the appropriate provision of stops on the association of electricity Rail and tension spring itself is an overextension of the tension spring due to improper use moderate actuation even without internal parts within the bow of the tension spring achievable, whereby in particular the actuation of the tension spring in parallel or in Possible direction of essentially 90 ° to the main extension of the busbar is. In addition, a pocket for passing through the operating tool in the Tension spring connection can be provided, which has an insertion stop and a twist forms a fuse for the actuating tool and a levering of the actuating mechanism stuff prevented.

With regard to the method for populating an all connection points of a multi-po current connector encompassing housing is proposed according to the invention each, a pre-assembled combination of tension spring and busbar in for each Insert the intended receiving pockets of the cover part, the preassembled bandage made of tension spring and busbar in each pocket when inserting through shaped elements of the cover part and then to position by joining the lower part and the cover part.

In an expedient embodiment, the method according to the invention with simple Chen, preferably linear joining movements are performed.

Exemplary embodiments of plug connectors according to the invention are described below Described in more detail with reference to the drawings.

Show it:

Fig. 1 is a multipolar connector in double row embodiment, in ordered to a pin header,

Fig. 2 is a perspective view of the dressing of power rail and a tension spring and contact box,

Fig. 3 shows a detail of the arrangement of tension spring and busbar

Fig. 4 shows the connector according to Fig. 1 with a different arrangement of the Association of busbar and tension spring,

Fig. 5 is an enlarged view of the cover part of the embodiment according to Fig. 4 with one-sided assembly of busbar and tension spring.

The connector shown in Fig. 1 is arranged in a known manner on a pin header 12 , the pins 13 in each case in the contact box 6 , which is formed on the power rail 4 , can be inserted. The lower part 2 of the housing 1 of the plug connector can be inserted in a known manner into the pin strip 12 on the side assigned to the contact box 6 .

In the embodiment of FIG. 1, a double-row design of the Ge housing 1 is provided. As a modification to this, a single-row configuration can also be provided. The preassembled bandage of busbar 4 and tension spring 5 can be inserted into the cover part 3 of the housing 1 in a holding and prepositioning manner. For this purpose, the cover part 3 forms recessed receiving pockets 15 into which the band from the busbar 4 and tension spring 5 can be inserted by the cover part 3 associated with the lower part 2 . The pins 13 of the pin strip 12 entering the contact box 6 are arranged in a manner not explained in more detail, for example on a circuit board 21 . Due to the double-row arrangement of the connector slots of the connector, two receiving pockets 15 are formed in this embodiment, which are separated by a partition 22 from each other. The partition 22 has shoulders 25 near the opening of the lid part 3 , which cause the insertion opening of the receiving pocket 15 to narrow. As a result, an insertion of the association of busbar 4 and tension spring 5 is only possible if the tension spring 5 is deformed during the assembly process. The Zugfe of 5 then requires less cross-sectional area perpendicular to the direction of insertion and can pass the paragraph 25 of the partition 22 . To guide the association of tension spring 5 and busbar 4 , a guide groove 11 is provided in the manner to be described below, which interacts with the tension spring 5 laterally projecting busbar. As a result, a guided insertion movement of the United band of busbar 4 and tension spring 5 is possible. The tension spring-side end of the busbar 4 is inserted with a first positioning element 19 into an insertion opening 20 arranged on the cover part 3 , as a result of which we position the assembly of busbar 4 and tension spring 5 in the insertion direction. Then the lid part 3 and the lower part 2 are joined together so that the locking contours 9 of the lid part 3 and the corresponding locking contours 10 of the lower part 2 come into engagement with one another. A cranked section facing the contact box 6 acts as a second positioning element 19 of the busbar 4 . Thus assigned paragraphs 18 of the lower part 4 act together and define the assembly of busbar 4 and tension spring 5 positioned. Furthermore, a partition of the lower part 2 engages in the insertion opening 24 of the partition 22 of the cover part 3 . After complete assembly, the tension spring 5 is to be moved into a position referred to as the deflected position 14 , so that a conductor can be inserted through the insertion opening 17 into the window 7 of the tension spring 5 and can be clamped on the underside on the current side 4 .

In Fig. 3, the manufacture of the pre-assembled association of tension spring 5 and 4 busbar is illustrated. A tension spring 5 known in its construction is fitted onto a busbar 4 provided with various crankings in such a way that the window 7 of the tension spring in its deflected deformation position 14 is inserted over the end region of the busbar 4 designed as the first positioning element 19 , the plug-on movement in the longitudinal direction the track runs. A wedge-shaped recess 8 is arranged in the busbar, into which the end of the tension spring 5 which is essentially parallel to the busbar 4 can be inserted. Due to the spring action of the arcuately curved tension spring 5 , the end of the tension spring 5 assigned to the busbar 4 is force-fit pressed into the recess 8 , the cutout 8 preventing the tension spring 5 from slipping in the longitudinal direction of the busbar 4 due to the shape. The association of busbar 4 and Zugfe 5 so frictionally held together is thus prepared for assembly in the cover part 3 of the housing 1 .

In the perspective view of FIG. 2, the entire Ver band of tension spring 5 and busbar 4 and the extension of the power rail 4 provided contact box 6 with the plug contacts is shown again. To see the image of the busbar 4 in the region of the tension-spring end of the busbar as a positioning element 19 for engaging in the insertion opening 20 of the cover part 3 . On the side of the busbar 4 assigned to the contact box 6 , the further positioning element 19 can be seen, which interacts with the shoulders 18 of the lower part 2 of the housing 1 . When deformed, the top of the tension spring 5 can open the opening shown here on the top in a window-like manner below the busbar 4 , it being possible for a conductor to be inserted into this window-like opening 7 .

In Figs. 4 and 5 a variant of the determination is shown of the Association of tension spring 5 and busbar 4. Here, on the tension spring end of the busbar 4, the positioning element 19 is designed in the form of a bend, which is supported against an insertion opening 30 of the cover part 3 , which is a non-positive support. Also changed are the guide grooves 11 of the receiving pocket 15 , which are suitable for insertion and insertion movement of the assembly of conductor rail 4 and tension spring 5 with insertion bevels 26 , as can be seen in particular from FIG. 7, upper half. The guide groove goes from a wide cross-section in the vicinity of the plug-side opening of the cover part 3 into a narrow groove area which receives and fixes the parts of the busbar 4 projecting laterally beyond the tension spring 5 . As a result, the tension spring 5 is freely deformable in the receiving pocket 15 , so that after a corresponding deformation, a conductor can be inserted through the opening 17 into the window 7 of the tension spring 5 . The arrangement of the lateral projections of the busbar 4 in the guide groove 11 at the same time presses the tension-spring end of the busbar 4 in the form of a positioning element 19 into the corresponding insertion opening 20 , which likewise limits the insertion movement.

It can also be seen that the contact box 6 is supported at its tension spring end near the insertion opening 24 on the partition wall 22 between the two receiving pockets 15 , so that good power transmission is ensured during the plug-in movement on the contact pins 13 . Furthermore, a stop pocket 27 , which is formed by a corresponding housing contour of the cover part 3 , an actuating tool, which is only indicated in the figures, can be positioned within the insertion opening such that the tension spring 5 cannot be overstretched. This actuating tool can be inserted through the insertion opening 16 and strikes in the insertion pocket 27 in the direction of insertion. A nose on the stop pocket 27 reliably prevents the actuating tool from moving in the direction of greater deformation of the tension spring 5 . The lateral boundary walls of the partition wall 22 are designed as guide bevels 28 , along which the actuating tool can slide when inserted in order to safely reach the stop pocket 27 .

Claims (16)

1. Multi-pin connector with spring-cage connections for electrical conductors, per connection location consisting of one busbar ( 4 ), one end of which corresponds to corresponding contact elements ( 13 ) and at the other end a tension spring ( 5 ) is arranged for fastening the conductor, one preassembled assembly of associated tension spring ( 5 ) and busbar ( 4 ) can be inserted into a receiving pocket ( 15 ) of a housing ( 1 ) encompassing all connector locations of the connector, consisting of a lower part ( 2 ) and a cover part ( 3 ), characterized in that the receiving pocket ( 15 ) is partially formed in the cover part ( 3 ) and that shaped elements ( 11 , 20 ) are arranged in the cover part in such a way that the combination of tension spring ( 5 ) and busbar ( 4 ) holds and positions in areas Lid part ( 3 ) is receivable and by joining the lower part ( 2 ) and lid part ( 3 ) in the receiving pocket ( 15 ) is available. 2. Multi-pole connector according to claim 1, characterized in that after inserting the cover part ( 3 ), the tension spring ( 5 ) and part of the tension spring-side busbar ( 4 ) engages. 3. Multi-pole connector according to claim 1, characterized in that the busbar ( 4 ) is substantially wider on both sides than the tension spring ( 5 ). 4. Multi-pin connector according to claim 3, characterized in that the association of tension spring ( 5 ) and busbar ( 4 ) by inserting the busbar ( 4 ) in lateral guide grooves ( 11 ) of the receiving pocket ( 15 ) can be positioned. 5. Multi-pole connector according to one of the preceding claims, characterized in that the association of busbar ( 4 ) and tension spring ( 5 ) is secured in position by molded positioning elements ( 19 ) against shifting in the effective direction of plug-in and pulling forces. 6. Multi-pin connector according to claim 5, characterized in that positioning elements ( 19 ) in the vicinity of the parting plane of the housing ( 1 ) between the cover part ( 3 ) and lower part ( 2 ) are provided. 7. Multi-pole connector according to claim 5, characterized in that the end of the busbar ( 4 ) to the inside of the receiving pocket ( 5 ) arranged insertion openings ( 20 ) of the cover part ( 3 ) has suitable positioning elements ( 19 ). 8. Multi-pin connector according to claims 4 and 7, characterized in that the receiving pocket ( 15 ) of each connection slot has the guide grooves ( 11 ) associated with bevels ( 26 ) and in addition to the insertion openings ( 20 ) in the cover part ( 3 ) on the lower part ( 2 ) paragraphs ( 18 ) for positioning elements ( 18 ) on the busbar ( 4 ) are provided. 9. Multi-pole connector according to claim 1, characterized in that the lower part ( 2 ) and the cover part ( 3 ) of the housing ( 1 ) have mutually corresponding locking contours ( 9 , 10 ) for fixing to each other. 10. Multi-pin connector according to claim 1, characterized in that after inserting the association of tension spring ( 5 ) and busbar ( 4 ) in the cover part ( 3 ) and the joining of the lower part ( 2 ) and cover part ( 3 ) only the tension spring ( 5 ) is elastically movable. 11. Multi-pole connector according to claim 1, characterized in that the inside of the arc of the tension spring ( 5 ) is kept free of housing elements. 12. Multi-pole connector according to claim 1, characterized in that elements are provided on the housing side to prevent overexpansion of the tension spring ( 5 ). 13. Multi-pole connector according to claim 12, characterized in that the cover part ( 3 ) has a stop pocket ( 27 ) for an actuating tool. 14. Multi-pin connector according to claim 13, characterized in that the cover part ( 3 ) to the stop pocket ( 27 ) extending guide bevel ( 28 ) for the actuating tool. 15. A method for populating a connector all encompassing a multipole connector housing ( 1 ) with connections for electrical conductors according to claim 1, characterized in that a pre-assembled Ver band of tension spring ( 5 ) and busbar ( 4 ) in pre for each connector see receiving pockets ( 15 ) of the lid part ( 3 ) is inserted, the assembled assembly of tension spring ( 5 ) and busbar ( 4 ) in each receptacle ( 15 ) when inserted through molded elements ( 11 , 20 ) in the lid part ( 3 ) and positioned and fixed by joining the lower part ( 2 ) and cover part ( 3 ). 16. The method according to claim 15, characterized in that the cover part ( 3 ) and the association of tension spring ( 5 ) and busbar ( 4 ) and the lower part are inserted into one another by simple, linear joining movements.