DE19756978C1 - Cable module assembly method for cable modules with individual cables, plug contacts and plug housings - Google Patents

Abstract

The cable module assembly method uses a number of magazines (3) holding different cable types, a respective assembly device (5) for fitting each plug housing (9) with plug contacts (1) and a program-controlled assembly station (4) fitted with the cable magazines and assembly devices corresponding to a selected cable module type, before fitting the plug contacts of the cables extracted from the cable magazines in the plug housings. An Independent claim for an assembly station for manufacture of cable modules is also included.

Description

The invention relates to a method for manufacturing cables modules according to the preamble of claim 1, and a pre direction for the production of cable modules according to the preamble of Claim 5.

A cable module usually consists of several different ones Single cables, plugs, sensors or other electrical construction share which using cable ties, wrapping tapes, hoses or the like held together and in one position and assignment to be connected to each other, whereby a Single cable a prefabricated cable with a certain Length and at least one plug contact, which with a Ka electrically conductive by crimping, soldering or clamping is connected, and wherein a plurality of plug contacts with egg nem associated connector housing assembled into a connector become.

A wiring harness usually consists of several, mostly ver different cable modules together. A cable set includes the Ge togetherness of all, mostly different wiring harnesses, which in one Product (for example a vehicle).

The various individual cables are divided into different types of individual cables depending on the cable length, the cable cross-section and the plug contacts connected to the cable ends, and are usually manufactured automatically on special machines, with the special machines cutting the cables to length, stripping the cable ends and stripping the cable ends with connection areas connect the plug contacts, in particular by crimping, in an electrically conductive manner. For the manufacture of cable modules, plug contacts and plug housings with various shapes and dimensions are used, the dimensions and designs of the plug contacts and the receiving cavities in the respective plug housing being matched to one another. In addition, the dimensions of the plug contacts, in particular the connection area, are dependent on the cable cross sections used and are also divided into certain plug contact types, for example plug contacts for cable cross sections up to approx. 2 mm ² , or up to approx. 4 mm ² , etc.

The following manual production sequence is known from the prior art for the production of a cable module:

• A) All parts required to manufacture the cable module, such as Plug housing and single cables of the different single boxes Outsource belt types from an interim storage facility for assembly transport space and be within easy reach for installation to ride.
• B) Grip the connector housing by hand and a plug contact from Hand into a designated receiving cavity in the connector housing until the plug contact is locked in the receptacle Insert the cavity to prevent it from being accidentally ejected ben to avoid the plug contact from the receiving cavity the. The processor recognizes the respective single cable type pen due to the different dimensions, color combination single cable insulation and the different Types of plug contacts.
• C) Repeat process II until all to manufacture the Required connector are assembled, d. H. until all the necessary plug contacts are in each case NEN assigned receiving cavity in the connector housing are stuck and locked.
• D) Checking the cable modules to avoid possible misallocation detect.

A disadvantage of this method can be seen that the variety of components used for cable module production supply is very large and that the components used with regard automatic processing not sufficiently opti are lubricated. The components are usually only with respect to the automati The manufacture of individual cables, especially with regard to Connection technology between the plug contacts and the cables optimized, as well as for the production of certain cable lengths, but not regarding the further processing of the individual cables Cable modules. Therefore, the processes for manufacturing cables modules are very time-consuming and not reliable fen, in particular, can be confused in operations II and III lungs cannot be excluded, since they are manual corridors.

EP 0 286 206 B1 describes the manufacture of cable modules from prefabricated individual cables. In a first step the prefabricated individual cables in a clamping device added. Then a plug contact from a Ka belende of a prefabricated single cable with a mechani the gripper removed from the clamping device and program controlled by movements in the x, y and z directions in front of you certain receiving cavity in a connector housing positio kidney and then in the specific receiving cavity in Plug housing inserted.

EP 0 286 207 B1 describes the manufacture of cable modules prefabricated single cables. In a first step the prefabricated individual cables in a clamping device taken. Then a plug contact from one end of the cable of a prefabricated single cable with a mechanical gri fer removed from the clamping device and program controlled through movements in the x, y and z directions in front of a certain one Receiving cavity positioned in a connector housing and on closing in the specific receiving cavity in the connector housing introduced. The clamping device is designed so that it  the individual cables, in which different plug contactfor Men can exist, according to a predetermined order sorted. For simultaneous processing of both cable ends of the single cable is a second clamping device accordingly used with sort function for the other cable end.

EP 0 286 208 B1 describes a clamping device for storing and Sorting electrical cables. The cables are pro controlled by the gram in a certain order direction picked up and a mechanical gripper for insertion Ren of plug contacts in predetermined receiving cavities in egg nem connector housing presented.

It is considered a disadvantage of these facilities that simultaneous processing of both cable ends only Single cable types with the same cable length can be processed can, d. H. only cable modules with a maximum of two Include plugs and single cables with the same cable length are processed automatically. In addition, the applied Posi tioning procedure for the plug contacts before insertion very time consuming in the receiving openings of the connector housing dig, because each plug contact individually in the x, y, z direction must be judged.

DE 35 26 900 C1 describes a method and a device device for the automatic collection of crimped, electrical Connectors for fitting connector housings, the plug contacts, corresponding to a later position in a move arranged opening in the connector housing, in a collection be positioned in the correct position and, if all for the complete assembly of the plug housing required plug contacts are positioned accordingly, all positio nated plug contacts in one step in the assigned Inserted openings of the connector housing and locked The insertion of the plug contacts into the connector housing follows through a relative movement between these components  ten, especially by moving the connector housing in Rich the positioned plug contacts.

A disadvantage of the described method and the be Written device viewed that the assembled Ka bel must be connected by means of a holding strip and that only the same assembled cables (same length, same plug contacts) can be used.

US 4,395,818 describes a method and an apparatus for "block charging" of plug contacts in a plug housing, the plug contacts, corresponding to a later position in an associated receiving opening in the connector housing, in egg ner assembly device can be positioned in the correct position, and if all for the complete assembly of the connector housing required plug contacts are positioned accordingly, are all positioned plug contacts in one operation into the associated receiving openings of the connector housing led and locked. The insertion of the plug contacts into the Plug housing takes place via a relative movement between these components, especially through the movement of the connector housing, via a housing positioning device in the direction of the positioned plug contacts. The correct position of the Plug contacts is made by a clamping device for the Single cable effects. Furthermore, the device has a dimension magazine for the connector housing and several on a common men sled table arranged clamping devices with introduced single cables.

A disadvantage of the described method and the be written device viewed that only simple (Single-row) housing and that only the same assembled cables (same length, same plug contacts) can be used.

EP 0 706 242 A1 describes a method and a device device for crimping and simultaneous insertion of the crimp ten plug contacts in a connector housing, the plug contacts  measures, corresponding to a later position in an assigned th opening in the connector housing, in a Montagerich tion in the correct position, whereby in a first Ar step all cable ends at the same time by crimping Plug contacts are connected and in another working step, if the plug contacts are positioned accordingly, are all positioned plug contacts in one operation into the associated receiving openings of the connector housing led and locked. The insertion of the plug contacts into the Plug housing takes place via a relative movement between these components, especially through the movement of the connector housing, via a housing positioning device in the direction of the positioned plug contacts. The correct position of the Plug contacts is made by a clamping device for the Single cable effects. Furthermore, the device has a dimension magazine for the connector housing and several on a common men sled table arranged clamping devices with introduced single cables.

A disadvantage of the described method and the be written device viewed that only simple (single-row) housing and that only the same cable (same cross cut, same plug contacts) assembled and further processed can be processed.

US 5 683 257 A and US 5 630 273 A describe further devices lines for assembling connector housings, at the same time several correctly positioned plug contacts in the assigned Nete connector housing can be inserted.

From EP 0 776 072 A1 magazines for individual cables are included crimped plug contacts known.

From the generic DE 38 20 638 A1 a method and a device for harness manufacturing known, with a Recording device for the connector housing, the  Recesses for the connector housing arranged in a line are arranged on a laying board and then using an assembly tool Connector housings from a magazine, and Cable laying and contacting tools, by means of which Plug housing with pre-assembled cables that are in one Memory are arranged in assembly order, populated become. Equipping the connector housing with plug contacts is done individually.

A disadvantage of this method can be seen that all differently assembled for a cable module Single cables in a fixed assembly order in one single magazine must be arranged. In addition, the Plug contacts of the individual cable ends individually into the appropriate receptacles in the connector housing inserted, whereby a complex positioning process is carried out must become.

DE 692 07 319 T2 describes an assembly device of connector housings in which the mounting device on a Guide carriage is guided.

A disadvantage of this method can be seen that all differently assembled for a cable module Single cables in a specified assembly order on one Feed means must be arranged. In addition, the Plug contacts of the individual cable ends individually in the corresponding the receiving openings in the connector housing inserted, creating a elaborate positioning process must be carried out.

The object of the invention is a method and Device to manufacture cable modules specify which for simple cable modules with one or two Connector housings, as well as for cable modules with three and more Connector housings can be applied.  

According to the invention, this object is achieved with regard to the method by the features of claim 1 and with respect to the Vorrich tion by an assembly station with the features of the claim 5 solved. The subclaims advantageously characterize and Developments of the invention.

The main idea of the invention is that plug contacts, which with single cables of different single cable types  connected, exempted from magazines and correspondingly ei ner later position in a receiving cavity of a plug kergehäuses in an assembly assigned to the connector housing be positioned correctly, and that if all required plug contacts for a connector housing in the Mon day device are positioned correctly, all plug-in con clock by means of a relative movement between the connector housing and the plug contacts in one step in the corresponding receptacle cavities inserted in the connector housing and be locked, the for each connector housing to be manufactured cable module provided an assembly device is. For example, a cable module includes four connector housings and eight single cable types, so are four assembly devices and eight magazines were used to carry out the process. The cable module with the smallest scope includes a Connector housings and single cables of a single cable type.

For removing or inserting the plug contacts from the magazine NEN or in the assembly facilities is a given Mon day device by a program-controlled linear movement (Movement in the y direction) of a guide carriage in a guide rungsbahn so aligned with a predetermined magazine that a given plug contact directly from a handle a first guide rail of the magazine into a second guide guiding rail of the assembly device can be transferred where for the assembly device, the magazine and the plug contact be specified by a manufacturing program, and being for each cable module to be manufactured has its own production program, which is called up after a user selection is.

Removing or inserting the plug contacts from the magazine NEN or in the assembly facilities is particularly united folds when the components mentioned are coordinated and be standardized. So is used on the different a standardized adapter range led and trained without the individual circumstances  regarding overall dimensions or functions of the plug contacts significantly affect. The introduced adapter area is due to its dimensions, shape and location fixed on the plug contact. In addition, the dimensions the adapter area of the plug contact and the dimensions egg nes first guide gap of the first guide rail of the Maga interest and a second leadership gap of the second leadership rail matched to each other in the assembly device, whereby a taper is provided in the adapter area, the outer Dimensions with the dimensions of the guide columns, in particular the cross-section of the guide columns can be tuned are. The taper closes at both ends with a Verdic kung, so that the plug contact in the guide rails axially is supported and can be guided in the guide rails. The thickening must be wider than the clear width of the first and second guide cross-section in the magazine and in the Assembly facility. If necessary, the Ver a bulge or the like can be molded on. To one Correct guidance of the plug contact in the guide rail ensure that the taper becomes rotationally asymmetrical executed by making the height of the taper larger than the width is performed. This allows the plug contact when the contact cross sections of the guide columns to the width of the ver is coordinated in the guide columns be introduced.

In a particularly advantageous embodiment of the plug contact the adapter area between a contact element and a Arranged and includes the connection area of the plug contact in addition to the taper a plug-in shaft. Through this Measures include the taper on the contact element facing end with the wider stem and at the other End with the wider connection area. This allows the Changes to the plug contacts due to the shape of the Adapter area can be kept low, so that the standard plug contacts continue for manual assembly can be used.  

Because of different cable cross-sections also plug-in clocks with different dimensions, especially the Width of the connection area, the plug-in shaft and the contact telementes are necessary, may also need for ver the adapter dimensions, especially for the adapter width different variants are provided. This applies self-evidently of course also for the guide cross-sections of the used Guide rails in the magazines or assembly facilities. In principle, however, adapter dimensions should be as uniform as possible solutions for the different types of plug contacts and plug con Clock dimensions are sought so that the plug contacts and the facilities for the production of cable modules with each other can be executed compatible. The same applies to the Dimensions (pitch) of the connector housing and the receptacle cavities in the connector housings. This makes them for one automatic production of cable modules necessary equipment conditions, such as the guide rails, magazines, Monta equipment, etc., identical in shape and size and under compatible with each other. They just differ through appropriate machine-readable coding, for example wise using a barcode carrier or a transponder system.

The assembly station is made according to the cable to be manufactured module automatically converted during the process, at for example by arranging or replacing the required ones Magazines and assembly facilities. Because the shapes and dimensions of the Magazines or the mounting devices identical and below one another are compatible, results from the Stan Standardization of the magazines and assembly facilities as an additional Licher advantage that the assembly station quickly and easily without great effort if necessary, for example in the production of two different cable modules in a row, by means of a corresponding exchange device automatically converted can be. As a result, a lot size 1 of one Cable module can still be produced economically, so that before  existing intermediate storage for the manufactured cable modules dissolved can be.

Another advantage of the method according to the invention is in that a color coding of the individual cables only for the use cases prescribed by law is necessary because the manufacture of the cable modules is program-controlled is confused with the individual cables almost impossible as in manual production.

This results in using the standardized compo nenten a particularly advantageous embodiment of the erfindungsge procedure. The individual cables are made using a special machine manufactured and automatically after production by one Handling system taken from the special machine and with the Plug contacts in the first guide, designed as a profile rail tion rail of the magazine introduced, the magazine two Profile rails each include a plug contact Single cable end is inserted so that the plug contacts egg single cable in parallel at the same position in x-rich tion are arranged in the two rails. Example wise can by an oblique arrangement of the magazine and / or caused by vibrations that the plug contacts with the Slide individual cables up to the front stop of the magazine. Due to the adapter area already described, the se correct guidance of the plug contacts in the profile rails si made. When the magazine is full, it will be over one Overhead conveyor to the assembly facility or to an interim storage facility transported. With an assumed distance of the plug contacts of 4 mm fit z. B. in an approx. 3 m long magazine approx. 750 Single cable. The magazines are each for a single cable type determined and marked machine readable. By ver linkage of the single cable type with the magazine identification each circulating single cable and thus every single cable end clearly identifiable with plug contact and can therefore be specifically assigned to the subsequent production of the cable modules become. Is a single cable only on one side with a plug  connected in a clocked manner, a color-coded single cable can be connected be used so that the assignment of the free cable end a later manual connection is not confused. In In this case, the single cable is only on one side in a Pro of the magazine and the other still free pro The magazine's filschiene can be used for additional single cables of this type be used.

A second guide rail of the jewei current assembly device with the respective first guide rail of the corresponding magazine aligned, the he required assembly facility program-controlled by means of the guide slides guided opposite the guideway the exit of the first guide rail of the desired magazine is positioned. Then the plug contact of the corresponding cable side program-controlled by means of a Transfer system from the selected first guide rail of the Magazine directly into the second guide rail of the assembly direction guided, here also the guidance of the plug contact tes through the coordinated dimensions of the adapter area and the guide rails are correctly aligned. After the transfer the plug contact of a single cable end is then immediately the plug contact of the other single cable end from the taken from the other first guide rail of the magazine and in a corresponding second guide rail of the corresponding Assembly device transferred. For this, as already described ben the corresponding assembly device with the second guide guide the other single cable end in front of the other The first profile rail positioned and the plug contact with the transfer system into the corresponding second Guide rail of the assembly device transferred. The position the plug contacts in the guide rails of the Monta ge institutions corresponds to their later position within the connector housing.

This results in the following sequence for the production of cables modules.  

• - Selection of the desired cable module to be manufactured;
• - Program-controlled assembly of the assembly station with the Production of the required cable module required magazine NEN and assembly facilities, the assembly facilities on a slide of the assembly station, for example using a tool changer with quick-release fasteners to be ordered;
• - Program-controlled transfer of a given individual cable by means of the plug contacts from a given magazine into a given assembly device by the following steps:
  • 1. Aligning the predetermined first assembly device in front of the predetermined magazine in which the predetermined single cable is guided;
  • 2. transfer a first plug contact of the given individual cable from the given magazine to the position in the given first assembly device, which corresponds to the later position of the plug contact in a most connector housing;
  • 3. align a predetermined second assembly device (this can be the first Montageein direction in exceptional cases, if the later positions of the plug contacts of the given single cable in the first connector housing) in front of the given magazine in which the given single cable is guided;
  • 4. Transfer a second plug contact of the given single cable from the given magazine to the position in the given second mounting device, which che the later position of the plug contact in a second connector housing (this can in exceptional cases also be the first connector housing when the later positions NEN of the two plug contacts of the specified single cable in the first connector housing));
• - analogous repetition of the program-controlled transfer the specified individual cable to all plug contacts of the  manufacturing cable module in the respective assembly facility are positioned;
• - Put the positioned plug contacts together with the up take cavities of the respective connector housing in an ar process by a relative movement between the positio nated plug contacts and the respective connector housing, where when positioned when executing the method Plug contacts simultaneously in the receiving cavities of each be plugged in and locked and in another execution of the method the respective one Connector housing via the positioned plug contacts is lowered until the plug contacts with the receiving cavity men are plugged together and locked;
• - Repeating the plugging together until all plug-in contacts of the cable module to be manufactured with the receiving hollow clear the respective connector housings are plugged together;
• - Removing the completed cable module from assembly station.

The assembly station for the production of cable modules comprises min at least a magazine with inserted single cables, whereby for a magazine is provided for each required individual cable type, a magazine holder for arranging the at least one maga interest at the assembly station, at least one assembly device, with a Monta for each required connector housing device is provided, a guide carriage on the the assembly facilities are arranged and a guide path in which the guide carriage is linear in the y direction can be moved. The spatial arrangement of the magazine holder and the guide carriage is designed so that the Ma magazines and the assembly facilities in one level with respect the height (z direction) are arranged so that a plug contact directly by a simple linear movement (in the x direction) the magazine can be transferred to the assembly facility.

The invention can be used for the production of cable modules different connector housings can be used. So can  for example, also arranged in a circular manner in plug housings Receiving cavities automatically mated with plug contacts be stuck when the assembly device according to Ra The dimension of the receptacle arranged in a circle in the plug housing cavities is formed.

An embodiment of the invention is shown in the drawing and is described in more detail below.

Show it:

Fig. 1 shows a schematic representation of an assembly station for the manufacture of a cable module;

FIG. 2a is side view of a standardized plug contact;

FIG. 2b shows top view of a standardized plug contact;

Fig. 3a schematic representation of a front view of a Ma gazins for a single type of cable;

FIG. 3b shows schematic sectional view of a magazine for egg NEN single type of cable taken along the line IIIb of FIG. 3a;

Fig. 4a schematic representation of a front view of a Mon table;

Fig. 4b cross section through a terminal block;

5a to 5f are schematic illustration of a detail of the assembly station during the production of cable modules.

6a to 6f are schematic illustration of a detail of the assembly station during the production of cable modules.

Fig. 7 is schematic representation of a cable module;

FIG. 8a to 8c schematic representation of plug contacts.

As can be seen from Fig. 1, an assembly station 4 for the manufacture of cable modules comprises several magazines 3 in which differently assembled individual cables 2 are guided by means of plug contacts 1 , the magazines 3 being arranged on a magazine receptacle, not shown, and several assembly devices 5 with Connector housing magazines 8 , each containing a different connector housing type, with an assembly device 5 being provided for each connector housing 9 required for manufacturing the desired cable module, and with the assembly devices 5 being arranged on a guide carriage 6 which is guided in a guide path 7 under program control. As can also be seen from FIG. 1, the magazines 3 and the mounting devices 5 are arranged in one plane with respect to the height (z direction).

As can be seen from FIGS. 2a and 2b, a plug contact 1 for cable modules comprises a contact element 1.1 , a plug shaft 1.2 with locking means 1.7 , a taper 1.3 , a connection area 1.4 and a sealing and / or strain relief area 1.5 , an adapter area 1.6 includes the plug shaft 1.2 and the taper 1.3 . The dimensions of the adapter region 1.6 are standardized for all plug contacts 1 of a plug contact type, in particular the dimensions of the taper 1.3 , a plug contact type in the sense of the invention being a summary of plug contacts 1 for specific cable cross sections (e.g. plug contacts for cable cross sections up to 2 mm ² etc.) and amperages. The plug contact type is set within a total dimension of the plug contacts 1 regardless of the shape and design of the contact element 1.1 or the connection area 1.4 or the sealing and / or strain relief area 1.5 . The outer dimensions of the plug-in shaft 1.2 depend on receiving cavities 9.1 in plug housings 9 , with which the plug-in contacts 1 are plugged together during the manufacture of a cable module.

As can be seen from FIGS . 3a and 3b, a magazine 3 for guiding individual cables 2 by means of the plug contacts 1 comprises a housing 3.4 , two guide rails embodied as profile rails 3.1 , each with a first guide gap 3.3 with a first guide cross section q1, the first Guide cross section q1 is matched to the dimensions of the taper 1.3 of the plug contact 1 , in particular the width b, so that a plug contact 1 can be secured against rotation and without jamming in the profiled rails 3.1 . The axial support of the plug contacts 1 in the mounting rail 3.1 is ensured by the thickening designed as a plug shaft 1.2 on the element 1.1 facing the contact element end of the taper 1.3 . A single cable 2 comprises a prefabricated cable 2.1 with a certain length, and at least one plug contact 1 connected to a cable end. As FIG. 3a further shows, the plug contacts 1 of an individual cable 2 are guided separately from one another in each case in a profiled rail 3.1 at the same position in the x direction, the cables 2.1 hanging through a cable passage 3.5 in the housing 3.4 of the magazine 3 . The distance between the first guide gap 3.3 and the cable passage 3.5 is so large that a plug contact 1 , even if it is equipped with a seal 2.2 , is completely guided in the magazine 3 and is thus protected against damage and dirt. In addition, the magazine 3 comprises a trans port device 3.2 , which is designed, for example, as an eyelet, and with which the magazine 3 is suspended in a hanging conveyor and can be transported. Furthermore, an entry side of the magazine, not shown, is designed to be lockable, so that the inserted plug contacts cannot inadvertently emerge from the magazine.

As can be seen from Fig. 4a, a mounting device 5 , a plug contact 5.3 with a plurality of rails 5.3.1 designed as a receiving guide, which are separated by a second guide gap 5.3.2 with a second guide cross-section q2, a clamping device 5.4 , which comprises several terminal strips 5.5 , and at least one link belt 5.1 with several spacers 5.2 . The number of receiving rails 5.3.1 is dependent on the number of receiving cavities in the y direction in a connector housing 9 which is to be fitted with the associated plug contacts 1 by means of the mounting device 5 . The second guide cross-section q2 is also matched to the dimensions of the adapter area 1.6 of the plug contacts 1 , in particular the width b of the taper 1.3 . The width of the Aufnah meschiene 5.3.1 depends on the y-grid dimension of the receiving cavities in the connector housing 9 . Depending on the different grid dimensions (in the x direction and / or y direction) of the receiving cavities in the connector housings 9 , the connector housings 9 are divided into different connector housing types. From the dimensions and the design of the plug contact receptacle 5.3 depends on the connector housing 9 , which is to be equipped by means of the mounting device 5 with the associated plug contacts 1 , the length of the plug contact receptacle 5.3 being dependent on the number of receiving cavities in the plug housing 9 in the x direction is dependent. But it is also conceivable for each connector housing type, regardless of the number of receiving cavities in the y direction, to provide a standard connector receptacle with a fixed number of mounting rails 5.3.1, the specified number of mounting rails 5.3.1 through the connector housing 9 the largest number of receiving cavities is determined in the y direction. By this measure, the mounting means 5 are for a plug housing type compatible with each other and all of the various plug housing 9 of a connector housing type can be processed, wherein the is true be by the replaceable disposed on the mounting means 5 with a standard plug receptacle connector housing magazine 8 to be machined plug housing 9 by means of the mounting device. 5

As can further be seen from FIG. 4a, the clamping device 5.4 comprises a plurality of clamping strips 5.5 . FIG. 4b shows an embodiment of a terminal block 5.5 which a clamping strip housing with two outlet openings 5.6 5.6.1 in each case one terminal 5.7, and a clamping channel 5.8 and two channels 5.9 retreat for the actuation of the two terminals 5.7. All the clamping channels 5.8 or all the retraction channels 5.9 of a clamping device 5.4 are connected to one another and are pneumatically actuated at the same time by means of a switch valve (not shown), with either the clamping channels 5.8 or the retraction channels 5.9 being supplied with compressed air. By means of the clamping device 5.4 , the plug contacts 1 positioned in the plug contact receptacle 5.3 are held in their position by clamping the cable end of the individual cable 2 with which the respective plug contact 1 is connected by means of the clamping device 5.4 . For a clamping process, the clamping channels 5.8 are supplied with compressed air. Characterized who who the clamping lugs 5.7.1 , which are part of the terminals 7 , pressed through the outlet openings 5.6.1 , whereby a single cable 2 is clamped between two terminal strips 5.4 is clamped. To cancel the clamping effect, the withdrawal channels 5.9 are supplied with compressed air, as a result of which the clamping lugs 5.7.1 return to their starting position and the single cable 2 is released. During the takeover process, in which a further plug contact 1 is inserted into the plug contact receptacle 5.3 , the terminal strips 5.4 are released in order to perform the clamping function again immediately after the positioning of the newly introduced plug contact 1 and to hold the plug contacts 1 in their desired position. Since two terminal strips 5.5 can only bridge a limited distance during one clamping operation, the width of the terminal strips 5.5 is also adapted to the y-grid dimension of the receiving cavities 9.1 in the plug housing 9 . For the execution of the terminal block 5.5 different concepts are conceivable, so a terminal 5.7 for each terminal block 5.5 can be provided for clamping for all cable ends, so that the clamping effect extends over the entire length of the terminal block 5.5 , or there can be a terminal for each inserted cable end 5.7 be provided, so that a plurality of terminal blocks (direction x) are 5.7 to the length of the distributed terminal block 5.7, where the distance between each terminal receiving cavities of 5.7 9.1 speaks the x-pitch ent in the plug housing. 9

Furthermore, it is apparent from Fig. 4a that the limb band 5.1 with spacers 5.2 above the plug contact 5.3 is arranged. It is used to arrange the plug contacts 1 guided in the plug contact receptacle 5.3 in the x grid of the receptacle cavities 9.1 in the plug housing 9 . The distances between two spacers 5.2 on the link belt 5.1 correspond to the x-grid dimension specified by the receiving cavities 9.1 . When a plug-in contact 1 is taken over, it is guided in the x-direction in the second guide gap 5.3.2 until it hits the spacer 5.1 . Subsequently, if a link belt 5.1 with spacers 5.2 is provided for each receiving gap 5.3.2 , the link belt 5.1 with the spacers 5.2 is moved further by one position. If a joint link belt 5.1 is provided for all receiving gaps 5.3.2, then the link belt 5.1 is only moved on when all receiving gaps 5.3.2 of the plug contact receptacle 5.3 are inserted with a plug contact 1 at this position in the x direction. If all the plug contacts 1 required for the plug housing 9 are positioned in the receiving gaps 5.3.2 , the link belt 5.1 with the spacers 5.2 is removed so that the plug housing 9 can be plugged onto the positioned plug contacts 1 .

FIGS. 5a to 5f show a schematic representation of the acquisition of the plug-in contacts 1 from the magazines 3 in the mounting device 5. As can be seen from FIG. 5 a , the mounting device 5 , into which a first plug contact 1. A egg individual cable 2 from the magazine 3 is to be transferred in the x direction, is already positioned in front of the magazine 3 . As can further be seen from FIG. 5a, the mounting rail 5.3.1 of the mounting device 5 is aligned with the profile rail 3.1 of the magazine 3 , the spacer 5.2 , which defines the required position of the plug contact, already being in its required position by means of the link belt 5.1 was spent. Fig. 5b shows the first male contact 1 .a which the magazine 3 to the stop 5.2.1 of the spacer was transferred to 5.2 by means of a not shown transfer system in the x direction from the guide rail 3.1 in the receiving rail 5.3.1 of the mounting device 5, and which is now in its position required for further processing. Fig. 5c shows the recording track 5.3.1 after the transfer of a second plug contact 1 .b. Fig. 5d shows the recording track 5.3.1 .c after the acquisition of a third plug contact 1. Fig. 5.e shows the mounting rail 5.3.1 with four plug contacts 1 .a to 1 .d. After all the necessary plug contacts 1 .a to 1 .d have been taken up in the mounting device 5 for fitting the connector housing, the link belt 5.1 is moved upwards with the spacers 5.2 . Figure 5f shows the link belt 5.1 moving upwards in the z direction before it is moved away in the x direction. At this time, all cable ends of the individual cable 2 and thus the positioned plug contacts 1 .a to 1 .d are fixed by means of the clamping device 5.4 .

FIG. 6a to 6e show the together in a schematic representation menstecken the positioned plug-in contacts 1 with the receiving cavities of a connector housing 9. Fig. 6a shows the receiving rail 5.3.1 with the positioned plug contacts 1 .a to 1 .d, wherein the link belt 5.1 has already been moved away from the positioned plug contacts 1 .a to 1 .d. Fig. 6b shows the positioned plug contacts directly before putting on a plug housing 9 , which is lowered from above until it hits the guide rail 5.3.1 on the positioned plug contacts 1 .a to 1 d, the plug contacts 1 a to 1 d in the their cavities 9.1 corresponding to their position are inserted in the connector housing 9 . Fig. 6c shows the plug contacts 1. A to 1. D placed on the plug housing, the plug contacts being inserted into the corresponding position cavities 9.1 of the plug housing 9 . The positioned plug contacts 1 .a to 1 .d are now guided laterally through the receiving cavities 9.1 in the plug housing 9 . The axial support of the positioned plug contacts 1 .a to 1 .d is ensured by the clamping device 5.4 , so that, as shown in FIG. 6d, the mounting rail 5.3.1 can be removed in the x direction. Subsequently, as can be seen from FIG. 6e, the connector housing 9 is completely lowered until the locking means 1.7 of the plug shafts 1.2 of the positioned plug contacts 1 .a to 1 .d are locked in the receiving cavities 9.1 of the plug housing 9 via the plug contacts 1 .a to 1 .d . When all of the cable connector module required (plug housing 9 with all the existing receiving cavities 9.1 inserted plug contacts 1 .a to 1 .d) completed all Klemmein be directions 5.4 of the assembly means 5 duls involved in the production of the desired Kabelmo released and the Completed cable module can be removed from the assembly station 4 using a handle.

Fig. 7 shows an example of a finished cable module 10 which .a four plug housing 9, 9 .b, 9 .c, 9 .d and three .a under schiedliche individual cable types 2, 2 .b, 2 .c with a total of ten made-up single cables 2 includes.

FIG. 8a to 8c show examples of plug-in contacts 1 with ver various embodiments of the contact element 1.1. The ad apter area is designed as an injection-molded plastic part with a tapered circumferential groove 11 and a flattening 12 on both sides for aligning the plug contacts 1 , the inner diameter of the groove 11 being coordinated with the guide cross sections of the guide rails. In addition, in this embodiment, the adapter area corresponds to the plug-in shaft 1.2 , the thickening at both ends of the taper being realized by the plug-in shaft 1.2 . The bevel 1.8 of the plug-in shaft 1.2 serves only to facilitate the assembly of the plug contacts 1 with the plug housings 9 .

Claims (9)

1.Procedure for producing cable modules from differently assembled individual cables with plug contacts and plug housings, the plug contacts with the assembled individual cables being removed from a magazine in one process step in a predetermined assembly sequence and program-controlled in a further process step with assigned receiving cavities in the plug housing by means of a relative movement between Re the connector housing and the plug contacts are plugged together and locked, characterized in that
that several magazines ( 3 ) are provided for the storage of different types of individual cables, the same assembled individual cables ( 2 ) are always stored in one magazine ( 3 ),
that for each connector housing ( 9 ) of the cable module ( 10 ) to be manufactured, an assembly device ( 5 ) is provided for equipping the connector housing ( 9 ) with plug contacts ( 1 ),
that a cable module ( 10 ) to be produced is selected in a first process step, and thereby an assembly station ( 4 ) is program-controlled with the magazines ( 3 ) required for the manufacture of the selected cable module ( 10 ) and the assembly devices ( 5 ) for the required connector housings ( 9 ) is populated
that the program-controlled, the plug contacts ( 1 ) of a given individual cable ( 2 ) are transferred from a given magazine ( 3 ) into given mounting devices ( 5 ), the given mounting devices ( 5 ) for transferring a plug contact ( 1 ) before the given Magazine ( 3 ) is aligned, the position of the transferred plug contact ( 1 ) in the assembly device ( 5 ) corresponding to its later position in the plug housing ( 9 ),
that the second process step is repeated until all plug contacts ( 1 ) of the cable module ( 10 ) to be manufactured are positioned in the respective assembly devices ( 5 ), and that in a third process step, when all plug contacts ( 1 ) required for a plug housing ( 9 ) ) are positioned accordingly, the plug contacts ( 1 ) are plugged together and locked in one operation by means of a relative movement with the associated receiving cavities ( 9.1 ) in the plug housing ( 9 ). 2. The method according to claim 1, characterized in that the third step is repeated until all plug contacts ( 1 ) of the cable module to be manufactured ( 10 ) with the receiving cavities ( 9.1 ) of the respective connector housing ( 9 ) are plugged together. 3. The method according to claim 1, characterized in that for positioning the plug contacts ( 1 ) in the mounting device ( 5 ) spacers ( 5.2 ) are provided, the spacers ( 5.2 ) being arranged on a link belt ( 5.1 ), which according to the Takeover of a plug contact ( 1 ) is moved one position, with a stand between two spacers ( 5.2 ) the x-pitch of the receiving cavities ( 9.1 ) in the plug housing ( 9 ) speaks ent, and wherein the plug contacts ( 1 ) by means of the spacers ( 5.2 ) separated from each other in the assembly device ( 5 ). 4. The method according to claim 3, characterized in that the plug contacts ( 1 ) after positioning in the mounting device ( 5 ) by means of a clamping device ( 5.4 ) which acts on a single cable ( 2 ) connected to the plug contact ( 1 ) in the specified position. 5. assembly station for the production of cable modules, in particular for the method according to claim 1 to 4, wherein a Kabelmo module comprises differently assembled individual cables with plug contacts and plug housings, and wherein the assembly station comprises a magazine with inserted individual cables, characterized in that
that a magazine ( 3 ) is provided for each individual cable type of the differently assembled individual cables ( 2 ), a first guide rail ( 3.1 ) being provided in each magazine ( 3 ) for guiding the plug contacts ( 1 ) in the correct position,
that for each connector housing ( 9 ) of the cable module to be manufactured ( 10 ) there is a corresponding mounting device ( 5 ) with a connector housing magazine ( 8 ), with a second guide rail ( 5.3.1 ) for correctly guiding the plug contacts in the mounting devices ( 5 ) ( 1 ) corresponding to a later position in receiving cavities ( 9.1 ) in the plug housing ( 9 ), and wherein the mounting devices ( 5 ) are arranged on a guide carriage ( 6 ) which is guided in a guide path ( 7 ) for program-controlled linear movements. 6. Assembly station according to claim 5, characterized in that for the correct and non-rotatable guidance of the plug contacts ( 1 ) in the guide rails, the dimensions of the first guide rails ( 3.1 ) in the magazines ( 3 ) and the dimensions of the second guide rails ( 5.3.1 ) in the mounting devices ( 5 ) are adapted to the dimensions of the plug contacts ( 1 ). 7. Assembly station according to claim 5, characterized in that in the assembly devices ( 5 ) for each column of receiving cavities ( 9.1 ) in the corresponding connector housing ( 9 ) there is a second guide rail ( 5.3.1 ), the distance between two guide rails ( 5.3 .1 ) in the mounting devices ( 5 ) corresponds to the distance between two columns of receiving cavities (y-pitch) in the connector housing ( 9 ). 8. Assembly station according to claim 5, characterized in that the assembly device ( 5 ) for transferring the plug contacts ( 1 ) can be positioned in a program-controlled manner in front of the magazine ( 5 ) that a first guide rail ( 3.1 ) of the magazine ( 3 ) with a second Guide rail ( 5.3.1 ) of the assembly device ( 5 ) is aligned so that the plug contact ( 1 ) can be inserted from the first guide rail ( 3.1 ) into the second guide rail ( 5.3.1 ) in the correct position. 9. Assembly station according to claim 5, characterized in that a tool changer for equipping the assembly station ( 4 ) with the magazines ( 3 ) and assembly devices ( 5 ) required for the manufacture of the cable module ( 10 ) is provided.