METHOD, DEVICE AND SYSTEM FOR PRODUCING AN ELECTRIC CABLE

Abstract

The invention relates to a method for producing an electric cable (2), according to which method the electric cable (2) is successively processed in independent processing modules (46, 47, 48). According to the invention, the electric cable (2), a sheath clamp (49) fixed on a cable sheath (18) of the cable (2), and/or a cable carrier (4) associated with the electric cable (2) during the processing thereof is rendered identifiable with an information carrier (9, 10), wherein documentation (13) of the processing of the electric cable (2) for at least one processing process of one of the processing modules (46, 47, 48) is created and associated with the electric cable (2).

Claims

1. A method for producing an electric cable comprising the steps: providing plural mutually independent processing modules for processing the electric cable, and the plural mutually independent processing modules process the electric cable in succession; providing an information carrier that is assigned to a sheath clamp that is fastened to a cable sheath of the electric cable, and/or assigned to a cable carrier that is assigned to the electric cable during processing of the electric cable; and wherein documentation of the processing of the electric cable is compiled for at least one processing process of one of the plural mutually independent processing modules, and the documentation is assigned to the electric cable.

2. The method for producing an electric cable as claimed in claim 1 and further comprising: a unique identifier for the electric cable, and the unique identifier is stored on the information carrier.

3. The method for producing an electric cable as claimed in claim 2 and wherein the unique identifier which is stored on the information carrier is only temporarily assigned to the electric cable during producing the electric cable.

4. The method for producing an electric cable as claimed in claim 1 and wherein the documentation is at least partially sored on the information carrier.

5. The method for producing an electric cable as claimed in claim 1 and further comprising: a global database to store the documentation; and the documentation compiled in the course of the electric cable producing process is assigned to individual electric cables.

6. The method for producing an electric cable as claimed in claim 1 and wherein the electric cable, the sheath clamp and/or the cable carrier are/is made identifiable by applying and/or modifying the information carrier.

7. The method for producing an electric cable as claimed in claim 1 and wherein the information carrier is of optical.

8. The method for producing an electric cable as claimed in claim 7, and wherein the optical information carrier is a barcode, a numerical code, a 2D code, a data matrix codes or a QR code.

9. The method for producing an electric cable as claimed in claim 22 and wherein the electronic form information carrier comprises at least one programmable memory module, to identify the electric cable and/or to document the processing of the electric cable.

10. The method for producing an electric cable as claimed in claim 1 and wherein the compiled documentation is used for quality management.

11. The method for producing an electric cable as claimed in claim 10 and wherein the electric cable is sorted, or reprocessed, in a manner dependent on information contained in the compiled documentation.

12. (canceled)

13. (canceled)

14. The method for producing an electric cable as claimed in claim 1 and further comprising: a control unit; a communication interface and/or a sensor device operatively communicating with the control unit; and information for the compiled documentation is detected by a control unit using the communication interface and/or the sensor device.

15. The method for producing an electric cable as claimed in claim 14 and further comprising: an optical sensor device, with at least one optical sensor, and the optical sensor device is used to detect information for the compiled documentation in the context of optical quality monitoring of the electric cable.

16. The method for producing an electric cable as claimed in claim 15 and wherein the at least one optical sensor is rotated radially around a central axis (M) of the electric cable, while the at least one optical sensor detects the information.

17. A device for documenting the production of an electric cable during processing of the electric cable, comprising: plural mutually independent processing modules that process the electric cable; an information carrier assigned to a sheath clamp fastened to a cable sheath of the electric cable, and/or to a cable carrier assigned to the electric cable during processing of the electric cable, and wherein the information carrier is for identification purposes; and wherein documentation of the processing of the electric cable for at least one processing process of one of the plural mutually independent processing modules is assigned to the electric cable by means of the information carrier.

18. (canceled)

19. (canceled)

20. (canceled)

21. The method for producing an electric cable as claimed in claim 15 and wherein the electric cable is rotated around a central axis (M) of the electric cable while the at least one optical sensor detects the information.

22. The method for producing an electric cable as claimed in claim 1 and wherein the information carrier is of electronic form.

23. A method for producing an electric cable comprising the steps: providing plural mutually independent processing modules for processing the electric cable, and the plural mutually independent processing modules process the electric cable in succession; providing an information carrier that is assigned to the electric cable during processing of the electric cable; and wherein documentation of the processing of the electric cable is compiled for at least one processing process of one of the plural mutually independent processing modules, and the documentation is assigned to the electric cable; and wherein information relating to a successful processing process, information relating to an incorrect processing process, information relating to a failed processing process and/or information related to at least one process parameter of the processing process is recorded in the compiled documentation.

24. A device for documenting the production of an electric cable during processing of the electric cable, comprising: plural mutually independent processing modules that process the electric cable; an information carrier assigned to the electric cable during processing of the electric cable, and wherein the information carrier is for identification purposes; and wherein documentation of the processing of the electric cable for at least one processing process of one of the plural mutually independent processing modules is assigned to the electric cable by means of the information carrier; and wherein the documentation contains information relating to a successful processing process, information relating to an incorrect processing process, information relating to a failed processing process and/or information related to at least one process parameter of the processing process.

Description

BRIEF DESCRIPTIONS OF THE FIGURES

[0141] Elements of identical function are denoted by the same reference signs in the figures.

[0142] FIG. 1 is a plan view of an electric cable fastened to a cable carrier, two exemplary information carriers and a control unit and a global database for assigning documentation according to the invention.

[0143] FIG. 2 is an orthographic side view of an exemplary two-core electric cable fitted with four plug-in connector components.

[0144] FIG. 3 is an orthographic side view of an exemplary single-core electric cable fitted with three plug-in connector components.

[0145] FIG. 4 is an orthographic side view of a partially preassembled two-core electric cable.

[0146] FIG. 5 is a plan view of a device for fitting a contact parts carrier to two contact elements of the two-core cable during detection of an actual axial position of the contact elements within the contact parts carrier by means of different, exemplary sensors.

[0147] FIG. 6 shows an optical sensor device with two optical sensors and two lighting units for optical quality monitoring of the cable processing operation in the course of the documentation according to the invention.

[0148] FIG. 7 is a plan a system for producing an electric cable with a device for documenting the production of the electric cable and at least two mutually independent processing modules.

DETAILED WRITTEN DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0149] This disclosure of the invention is submitted in furtherance of the Constitutional purposes of the US Patent Laws “to promote the progress of Science and the useful arts” (Article 1, Section 8).

[0150] FIG. 1 shows a device 1 for documenting the manufacture of an electric cable 2 in the course of processing the cable 2 in mutually independent processing modules (cf. FIG. 7).

[0151] A workpiece carrier system 3 is provided, which has a cable carrier 4 to which the electric cable 2 is fastened. The electric cable 2 can therefore be assigned to the cable carrier 4 as it is being processed throughout the manufacturing process or during part of the manufacturing process.

[0152] The cable carrier 4 has clamping jaws 5 in order to fix the first cable end 6 and/or the second cable end 7 of the cable 2, in the exemplary embodiment both cable ends 6, 7. In the exemplary embodiment, the cable 2 is clamped into the cable carrier 4 in such a way that a U-shaped profile is formed between the two cable ends 6, 7. In principle, a profile deviating from this may also be provided, for example a helical winding in the case of a relatively long cable 2. Provision may also be made for only one of the two cable ends 6, 7 to be received in the cable carrier 4. The actual configuration of the cable carrier 4 and the manner of fastening of the cable 2 on the cable carrier 4 are not of importance in the context of the invention.

[0153] In order to transport the cable 2 between the independent processing modules for processing said cable 2, the cable carrier 4 is fitted, by way of example, on a transportation device in the form of a conveyor belt 8. In principle, however, the cable 2 may be moved between the processing modules in any desired manner, for example only, and without limitation, including by a production technician using a roller track.

[0154] Provision is made for the cable 2 and/or the cable carrier 4 to have an information carrier 9, 10 for identification purposes. By way of example, an optical information carrier 9 is illustrated on the first cable end 6, and an electronic information carrier 10 is illustrated on the cable carrier 4. In principle, it may already be sufficient in the context of the invention for either the cable 2 or the cable carrier 4 to have an information carrier 9, 10. A plurality of information carriers 9, 10 may also be provided, in particular one information carrier 9, 10 on each of the two cable ends 6, 7 of the cable 2.

[0155] The optical information carrier 9 is illustrated, by way of example, as a barcode. However, the optical information carrier 9 may also be, for example only, and without limitation, a numerical code and/or 2D code, for example a data matrix code or a QR code.

[0156] In the context of the invention, the information carrier 9, 10 may be applied to the cable 2 and/or to the cable carrier 4, for example only, and without limitation, by means of the laser 11 illustrated. Provision may also be made to modify an existing information carrier 9, 10, for example a serial number already printed on the cable 2 or an existing barcode. Instead of a laser 11, any desired device for applying and/or modifying an optical information carrier 9, for example only, and without imitation, even an inkjet printer, may be provided in principle.

[0157] The electronic information carrier 10 may be, for example only, and without limitation, at least one programmable memory module, in particular an RFID transponder, which can be modified to identify the cable 2 and/or to document the processing of the cable 2. For example, a read/write device 12 for communicating with the RFID transponder is illustrated in FIG. 1.

[0158] As an alternative to, or in addition to an information carrier 9, 10 on the cable 2 or on the cable carrier 4, provision may also be made for the cable 2 to be made identifiable by means of at least one sheath clamp 49 fastened to the cable sheath 18. An exemplary sheath clamp 49 is fastened to the second cable end 7 of the cable 2 in FIG. 1. The sheath clamp 49 may likewise be provided with any desired information carrier 9, 10. A barcode is illustrated by way of example.

[0159] In principle, different types of sheath clamps 49 may be provided. For example, the clamp illustrated in FIG. 1, which has an actuation region and a fastening region, may be provided. By means of the actuation region, the clamping jaws which are situated at the opposite end of two clamping limbs and which form the fastening region can be opened counter to the spring force of a resetting spring, and the sheath clamp 49 can thus be attached radially to the cable 2. As an alternative, however, sheath clamps with lashing elements in the form of a cable tie may also be provided. A sheath clamp with a metallic partial ring that can be clamped may also be provided. Furthermore, a sheath clamp may have an elastic ring, for example a rubber ring, similar to a sealing ring. Magnetic sheath clamps may also be provided. The exact configuration of the sheath clamp 49 is not of absolute importance in the context of the invention. The at least one sheath clamp 49 is preferably fastened in a non-positively locking and reversible fashion to the cable sheath 18 of the cable 2.

[0160] In principle, all the features that are described in respect of an information carrier 9, 10 applied to the cable 2 or to the cable carrier 4 may also be suitable for use with an information carrier 9, 10 applied to the sheath clamp 49, and for this reason the sheath clamp 49 is not discussed in further detail herein.

[0161] According to the invention, provision is further made for documentation 13 of the processing of the cable 2 to be compiled for at least one processing process of one of the processing modules and to be assigned to the cable 2.

[0162] For this purpose, for example, a unique identifier 14 for the cable 2 may be imprinted into or onto the information carrier 9, 10 and/or a unique identifier 14 that has already been imprinted on, or in, the information carrier 9, 10 is temporarily assigned to the cable 2 for producing said electric cable 2.

[0163] The identifier 14 may be, for example only, and without limitation, a binary, decimal or hexadecimal numerical value or a numerical sequence. The identifier 14 may be encoded or imprinted, for example, in the barcode or some other code. The identifier 14 may also be imprinted or stored or saved in an electronic component, for example only, and without limitation a memory module, for example in the RFID transponder 10.

[0164] For example, provision may also be made for different cable carriers 4 to already have a respective information carrier 9, 10 with a respectively unique identifier 14. Owing to the assignment of the cable 2 to the cable carrier 4 during the manufacture or at least during a sub-process of the manufacture, the documentation 13 can ultimately be assigned according to the invention. However, provision may also be made, for example, for the information carrier 9, 10 to be provided in targeted fashion with an identifier 14 for the identification of the cable 2 for the manufacturing process to be documented.

[0165] Provision may be made for the documentation 13 to be at least partially imprinted into and/or onto the information carrier 9, 10. This may be advantageous in particular when the information carrier 9, 10 is an electronic information carrier 10 on which sufficient storage space is available (indicated in FIG. 1). However, provision is also made, for example, for a continuous numerical sequence or a similar code to be provided in order to record the documentation 13 continuously in the course of the cable manufacture, for example in optical form on the cable 2.

[0166] For example, one, some, or all of the processing modules may have a read/write unit 12 and/or a scanner for reading out a barcode (or some other code) and/or a laser 11 or a printer in order to augment the documentation 13 or to evaluate said documentation for the cable processing operation.

[0167] However, a global database 15 may preferably be used, in which documentation 13 compiled in the course of the manufacture production line may be assigned to individual cables 2, preferably on the basis of the respective unique identifier 14. The addressing in the database 15 may thus be implemented in a manner dependent on the identifier 14 of the respective cable 2.

[0168] A control unit 16 may be provided in the context of the device 1 according to the invention for documenting the manufacture in order to carry out the described method. The control unit 16 may be communicatively/operatively connected, for example, to the devices for imprinting and/or reading out and/or modifying the information carrier 9,10 (indicated with regard to the laser 11 and the read/write unit 12) and may furthermore be communicatively/operatively connected to the database 15.

[0169] For example, information relating to a successful processing process, an incorrect processing process, a failed processing process and/or at least one process parameter of the processing process may be recorded in the documentation 13. The documentation 13 may be used in the context of quality management. In the context of the quality management, provision may for example be made to sort the cable 2 or to approve it for post-processing in a manner dependent on the information contained in the documentation 13. In particular, removal of an incorrectly processed cable 2 in the course of the cable manufacture may be provided in the context of quality management.

[0170] The information for the documentation 13 may be recorded by the control unit 16 using a communication interface, for example. For example, the control unit 16 may be communicatively connected to the individual processing modules via a respective communication interface in order to obtain information relating to the processing processes from the respective processing modules and record said information in the documentation 13.

[0171] FIG. 2 illustrates an enlarged side view of an exemplary multicore electric cable 2.

[0172] As illustrated in FIG. 2, inner conductors 17 of the cable 2 extend from the first cable end 6 to the second cable end 7 (cf. FIG. 4 as well). The multicore electric cable 2 has already been partially processed at its first cable end 6.

[0173] The two-core cable 2 illustrated has a cable sheath 18 and a cable shielding braid 19 running underneath the cable sheath 18. A shielding foil or film may optionally run above the cable shielding braid 19 (not illustrated). The two inner conductors 17 run within a filler layer 20 below the cable shielding braid 19. The electrical conductors 21 or cores of the two inner conductors 17 are each encased by an insulation 22. In the course of the cable manufacture, the inner conductors 17 may be exposed in the region of their inner conductor ends, as illustrated. Inner conductor contact elements 23 (cf. FIG. 4 for example) of an electrical plug-in connector 24 (cf. FIG. 7) may then be fastened, in particular crimped, to the respective inner conductor ends. In the course of the cable manufacture, the cable shielding braid 19 may be folded back over the cable sheath 18, preferably over a metal sleeve or supporting sleeve, not illustrated, and optionally fixed to a fabric tape 25 (cf. FIG. 4).

[0174] The two-core cable 2 illustrated in FIG. 2 is to be understood merely by way of example for use with the invention. In principle, the invention is suitable for use with any desired type of cable, for example also including for use with an electric cable 2 having just one inner conductor 17, for example of coaxial design, as illustrated in FIG. 3.

[0175] FIG. 3 shows the front, free end or the first cable end 6 of a single-core electric cable 2 that has already been partially stripped of insulation. The single-core cable 2 likewise has a cable sheath 18 and a cable shielding braid 19 running underneath the cable sheath 18. The cable shielding braid 19 may likewise be folded over onto a supporting sleeve, not illustrated. The insulation 22 or the primary insulation of the inner conductor 17 runs underneath the cable shielding braid 19. The inner conductor 17 may be formed, for example, as a stranded wire comprising several individual wires, as indicated in FIG. 3. In principle, however, the exact structure of the single-core cable 2 is not of importance.

[0176] It should be emphasized at this point that features and advantages of the method, the system 26 (cf. FIG. 7) described herein below and/or the device 1 which relate to the manufacture of the two-core or multicore electric cable 2 may also be transferred to the manufacture of the single-core electric cable 2—and vice versa (provided that this is not technically ruled out).

[0177] In the course of the manufacture of the electric cable 2, provision may be made to fit the cable sheath 18 of the cable 2 with two or more plug-in connector components for plug-in connector fitting starting from the front, free end of the cable 2. These plug-in connector components may be, for example only, and without limitation, a shielding sleeve 27 (cf. FIG. 2), a plug-in connector housing 28 (cf. FIG. 2), a line seal 29 (cf. FIG. 2 or FIG. 3), a cable retainer 30 (cf. FIG. 3), a retaining cap 31 or closure cap (cf. FIG. 2 or FIG. 3) or an angle cap. In principle, the configuration of the plug-in connector component 27, 28, 29, 30, 31 to be pushed onto the cable sheath 18 of the cable 2 is not of importance in the context of the invention. In principle, the single-core or the multicore electric cable 2 may be provided with any desired plug-in connector components in the course of the cable manufacture.

[0178] In the course of the manufacture of a two-core or multicore electric cable 2, it may however be the case in particular that fitting in accordance with the sequence, illustrated in FIG. 2, of a shielding sleeve 27, followed by a socket housing or a plug-in connector housing 28, followed by a line seal 29, followed by a retaining cap 31 (or an angle cap in the case of an angled plug-in connector) is highly suitable. In the case of manufacture of a single-core electric cable 2, fitting in accordance with FIG. 3, whereby a line seal 29, followed by a cable retainer 30, followed by a retaining cap 31, are pushed onto the cable sheath 18 starting from the front end of the cable 2, may preferably be highly suitable.

[0179] In the context of the invention, various items of information may advantageously be recorded in the documentation 13 of the processing of the cable 2. For example, information from a check for an absence of damage to a cable component of the cable 2 (for example to the cable sheath 18, to the cable shielding braid 19 or to the insulation 22) may be taken into consideration. Furthermore, a check for an absence of damage to a plug-in connector component of the plug-in connector 24 to be fitted on the cable 2 may be performed, wherein the results of the check are ultimately recorded in the documentation 13. A check of a radial alignment of plug-in connector components may also be performed, the results of which are in turn recorded in the documentation 13. In particular, the result of a check for the presence of certain plug-in connector components after the fitting of the cable sheath 18, for example of the line seal 29, may also be advantageous in the context of the documentation 13.

[0180] FIG. 4 once again illustrates the multicore or two-core cable 2. By way of example, an inner conductor contact element 23 crimped to the first cable end 6 is shown for the upper inner conductor 17 of said first cable end. In respect of a crimping process, provision may be made, inter alia, to record information relating to the pressing power used during the crimping process in the documentation 13. In this respect, it is particularly advantageous to carry out all of the necessary crimping processes individually in order to document the respective individual pressing power.

[0181] In principle, any desired process parameters of the processing processes may be recorded in the documentation 13.

[0182] Furthermore, in the course of the manufacture of an electric cable 2, there is sometimes a need for defined axial positions of plug-in connector components relative to further plug-in connector components or relative to certain cable sections within specified tolerances. In particular in the context of quality management, provision may therefore be made for information relating to a check of an axial position of at least one plug-in connector component to be recorded in the documentation 13. For example, at least one of the axial distances A.sub.1-5, illustrated in FIG. 4, between the front end of the cable 2 and the respective associated cable positions (exit point of the inner conductors 17 out of the filler layer 20/exit point of the filler layer 20 and/or the cable shielding braid 19 out of the cable sheath 18/front position of the fabric tape 25/rear position of the fabric tape 25/total length or manufacturing length of the cable 2) may be detected by measurement, for example by means of an optical sensor device 39, to be described herein, and documented in the context of the documentation 13.

[0183] Furthermore, the documentation of the results of a check of a diameter D of a cable section of the cable 2 may be provided, for example of the diameter D of the cable section at which the fabric tape 25 is provided, in order to ensure that a supporting sleeve can subsequently be pushed onto the fabric tape 25 in a further processing process.

[0184] Furthermore, information relating to the result of a check for protruding individual wires 32 (a protruding individual wire 32 of the cable shielding braid 19 is illustrated in each of FIGS. 4 and 6 by way of example) may be recorded in the documentation 13.

[0185] Documentation of a check for sufficient fastening, for example latching, of a plug-in connector component, for example of a contact parts carrier 33 receiving the inner conductor contact elements 23, may also be provided. FIG. 5 shows, by way of example, a processing process in the course of the manufacture of the multicore electric cable 2, according to which an actual axial position P.sub.IST of at least one inner conductor contact element 23 fastened to the inner conductor 17 of the electric cable 2 within the contact parts carrier 33 relative to an intended axial end position P.sub.END is checked. The inner conductor contact elements 23 have already been inserted into the contact parts carrier 33 at this time. By way of example, the inner conductor contact element 23 illustrated at the top in FIG. 5 is illustrated in its end position P.sub.END and the inner conductor contact element 23 illustrated at the bottom in FIG. 5 has not yet been pushed into the receptacle of the contact parts carrier 33 to a sufficient extent.

[0186] In the exemplary embodiment, the axial end position P.sub.END corresponds to the position of the front, free end of the inner conductor contact element 23 if the inner conductor contact element 23 is fully latched to a primary latching means 34.

[0187] In the case of the inner conductor contact element 23 situated in its axial end position P.sub.END, the primary latching means 34, which is indicated purely by way of example, of the contact parts carrier 33 is latched to a complementary groove 35 of the inner conductor contact element 23. In principle, any desired latching connection between the primary latching means 34 and the inner conductor contact elements 23 may be provided.

[0188] In the context of the invention, a sensor unit 36 is provided, which is designed to detect the actual axial position P.sub.IST of the at least one inner conductor contact element 23 within the contact parts carrier 33 relative to the intended axial end position P.sub.END. FIG. 5 illustrates various sensors of the sensor unit 36 in combination by way of example.

[0189] For example, provision may be made for the sensor unit 36 to be designed to detect the position of a front, free end of the at least one inner conductor contact element 23 within the contact parts carrier 33.

[0190] The sensor unit 36 may have, for example, a tactile sensor, preferably a measuring probe 37 or a force transducer, which is insertable through the front opening or through a receptacle of the contact parts carrier 33. The illustration shows, by way of example, a measuring probe 37 for detecting the actual position P.sub.IST of a front end face of the upper inner conductor contact element 23. Instead of the measuring probe 37, it is however similarly also possible for a force transducer to be provided in order to check the actual position P.sub.IST by way a compressive or tensile check, in particular in order to determine whether the at least one inner conductor contact element 23 has been latched by the primary latching means 34. In this way, although it is generally not possible to detect the exact relative position of the inner conductor contact element 23, it is possible to determine whether the actual position P.sub.IST corresponds to the intended axial end position P.sub.END.

[0191] For contactless detection of the actual position P.sub.IST of the inner conductor contact element 23 within the contact parts carrier 33, an optical sensor may also be provided for example. A laser system 38 for distance measurement is illustrated by way of example in FIG. 5. However, even a camera unit may be sufficient. Furthermore, contactless detection of the actual position P.sub.IST is also possible, for example, by an inductive sensor or by a capacitive sensor which preferably detects the actual position P.sub.IST of the inner conductor contact element 23 preferably through the contact parts carrier 33.

[0192] In as much as the sensor unit 36 has detected correspondence of the actual position P.sub.IST with the intended end position P.sub.END, provision may be made to continue the manufacturing process and to this end to note, for example, a successful processing process in the context of the documentation 13. As an alternative, a repair or a rejection of the electric cable 2 may be provided, and this may be determined subsequently, for example by a following processing module, owing to a documented incorrect or failed processing process in the context of the documentation 13.

[0193] In the context of the invention, provision may also be made for information relating to a check of electrical properties of the partially fitted or fully fitted plug-In connector 24 to be recorded in the documentation 13.

[0194] Information relating to waste and/or particle monitoring may also be used in order to be able to establish processing success of a processing module indirectly by comparing the waste produced in the course of the processing process or the particles produced with an expected quantity of waste or particles and/or an expected type of waste or particles.

[0195] As mentioned herein, provision may be made for the information for the documentation 13 to be detected by the control unit 16 using a communication interface or communication connection to a respective processing module. However, in the context of the invention, for the documentation 13, provision may also be made for the control unit 16 to detect the information for the documentation 13 by means of an independent sensor device 39.

[0196] By way of example, FIG. 6 illustrates an optical sensor device 39 in order to detect information for the documentation 13 in the context of optical quality monitoring of the cable 2.

[0197] Here, it is provided that the line of sight S of a first sensor 40 is aligned with the cable end 6, 7, wherein a first lighting unit 41 is arranged behind the cable end 6, 7 along the line of sight S of the first sensor 40 in order to generate transmitted light or back light for the optical detection of the cable end 6, 7. Furthermore, the line of sight S of a second sensor 42 is likewise aligned with the cable end 6, 7, wherein a second lighting unit 43 is arranged in front of the cable end 6, 7 along the line of sight S of the second sensor 42 in order to generate incident light for the optical detection of the cable end 6, 7. The first sensor 40 and the second sensor 42 are each formed as a camera 44 with a respective lens 45.

[0198] The second sensor 42 is arranged so as to be offset with respect to the first sensor 40 by a defined angle α. In principle, the angle α may be any angle, however an offset by an angle α of approximately 90° is particularly suitable.

[0199] Provision may be made for the sensors 40, 42 to be rotated radially around the central axis M of the cable 2 and/or for the cable 2 to be rotated around the central axis M while the sensors 40, 42 detect individual images or video information. In this way, the cable 2 may be optically detected all the way around. The respective lighting units 41, 43 are preferably rotated synchronously with their respectively associated sensors 40, 42.

[0200] The optical quality monitoring may comprise, for example, a check for stranded wires or individual wires 32 protruding from the cable end 6, 7. A check of the axial position of a plug-in connector component of a plug-in connector 24 to be fitted to the cable end 6, 7 and/or a check of a diameter D of a cable section adjoining the cable end 6, 7 may also be provided.

[0201] In order to ensure quality monitoring of the highest possible quality, provision may be made to carry out the state of the cable end 6, 7 at least after a cleaning process for removing particles adhering to the cable end 6, 7.

[0202] The information collected in this way may advantageously be used for the documentation 13 according to the invention.

[0203] FIG. 7 shows a system 26 for producing the electric cable 2. The system 26 comprises the device 1 for documenting the production of the electric cable 2, for example using the optical sensor device 39 described.

[0204] The system 26 further comprises at least two mutually independent processing modules for producing the electric cable 2. In principle, the system 26 may be suitable for producing a multicore cable 2 and/or a single-core cable 2. The production of a multicore cable 2 is specified merely by way of example.

[0205] In principle, the independent processing modules may be any desired modules for producing electric cables 2; FIG. 7 illustrates only a few exemplary processing modules. The order of processing or the arrangement of the processing modules may optionally also differ. Furthermore, further processing modules may be added or existing processing modules may be split up or combined.

[0206] The system 26 initially shows, by way of example, a first processing module 46 for aligning the electric cable 2 with the cable carrier 4 for subsequent processing.

[0207] For example, a processing module for stripping insulation from a portion of a cable component (for example the cable sheath 18) of the cable 2 may be arranged downstream of the first processing module 46. Furthermore, for example, a processing module for processing the cable shielding braid 19 and for applying the fabric tape 25 may be provided.

[0208] FIG. 7 illustrates, by way of example, a second processing module 47 for crimping the inner conductor contact elements 23 onto the inner conductors 17 of the cable 2. The pressing force used for this purpose may be documented in the context of the invention. For example, a cleaning module may be provided downstream of the second processing module 47 in order to clean the cable 2 to remove particles adhering to the cable 2.

[0209] By way of example, the device 1 according to the invention for documenting the production of the electric cable 2 is likewise arranged downstream of the second processing module 47 (and preferably a cleaning module). For example, the optical sensor device 39 described may be used in order to carry out a check for protruding individual wires 32, a check of an axial position of plug-in connector components 27, 28, 29, 30, 31 and/or a check of the diameter D of the fabric tape 25.

[0210] Further processing modules may be arranged downstream of the device 1 according to the invention, for example an illustrated third processing module 48 for fitting the contact parts carrier 33 on the inner conductor contact element 23 and for fixing the contact parts carrier 33 with an intended alignment or orientation using a shielding sleeve 27.

[0211] Any desired further processing modules may follow the third processing module 48, for example in order to fit further plug-in connector components or housing components in order to ultimately fully attach the desired plug-in connector 24 to the cable 2.

Operation

[0212] Having described the structure of our Method, Device and System for Producing an Electric Cable, its operation is briefly described.

[0213] A principal object of the present invention is a method for producing an electric cable (2) comprising the steps: providing plural mutually independent processing modules (46, 47, 48) for processing the electric cable (2), and then plural mutually independent processing modules (46, 47, 48) process the electric cable (2) in succession; providing an information carrier (9, 10) that is assigned to a sheath clamp (49) that is fastened to a cable sheath (18) of the electric cable (2), and/or assigned to a cable carrier (4) that is assigned to the electric cable (2) during processing of the electric cable (2); and wherein documentation (13) of the processing of the electric cable (2) is compiled for at least one processing process of one of the plural mutually independent processing module (46, 47, 48), and the documentation (13) is assigned to the electric cable (2).

[0214] A further object of the present invention is a method for producing an electric cable (2) and further comprising: a unique identifier (14) for the electric cable (2), and the unique identifier (14) is stored on, and/or saved on, and/or imprinted on, and/or imprinted into the information carrier (9, 10).

[0215] A further object of the present invention is a method for producing an electric cable (2) and wherein the unique identifier (14) which is stored on, and/or saved on, and/or imprinted on, and/or imprinted into the information carrier (9, 10) is only temporarily assigned to the electric cable (2) during producing the electric cable (2).

[0216] A further object of the present invention is a method for producing an electric cable (2) and wherein the documentation (13) is at least partially stored on, and/or saved on, and/or imprinted on, and/or imprinted into the information carrier (9, 10).

[0217] A further object of the present invention is a method for producing an electric cable (2) and further comprising: a global database (15) to store and/or save the documentation (13); and the documentation (13) compiled in the course of the electric cable (2) producing process is assigned to individual electric cables (2).

[0218] A further object of the present invention is a method for producing an electric cable (2) and wherein the electric cable (2), the sheath clamp (49) and/or the cable carrier (4) are/is made identifiable by applying and/or modifying the information carrier (9, 10).

[0219] A further object of the present invention is a method for producing an electric cable (2) and wherein the information carrier (9, 10) is of optical form.

[0220] A further object of the present invention is a method for producing an electric cable (2) and wherein the optical information carrier (9) is a barcode a numerical code a 2D code, a data matrix code, or a QR code.

[0221] A further object of the present invention is a method for producing an electric cable (2) and wherein the electronic form information carrier (10) comprises at least one programmable memory module, to identify the electric cable (2) and/or to document the processing of the electric cable (2).

[0222] A further object of the present invention is a method for producing an electric cable (2) and wherein the complied documentation (13) is used for quality management.

[0223] A further object of the present invention is a method for producing an electric tale (2) and wherein the electric cable (2) is sorted, or reprocessed, in a manner dependent on information contained in the compiled documentation (13).

[0224] A further object of the present invention is a method for producing an electric cable (2) and further comprising: a control unit (16); a communication interface and/or a sensor device (39) operatively communicating with the control unit (16); and information for the compiled documentation (13) is detected by a control unit (16) using the communication interface and/or the sensor device (39).

[0225] A further object of the present invention is a method for producing an electric cable (2) and further comprising: an optical sensor device (39), with at least one optical sensor (40, 42), and the optical sensor device (39) is used to detect information for the compiled documentation (13) in the context of optical quality monitoring of the electric cable (2).

[0226] A further object of the present invention is a method for producing an electric cable (2) and wherein the at least one optical sensor (40, 42) is rotated radially around a central axis (M) of the electric cable (2), while the at least one optical sensor (40, 42) detects the information.

[0227] A further object of the present invention is a device (1) for documenting the production of an electric cable (2) during processing of the electric cable (2), comprising: plural mutually independent processing modules (46, 47, 48) that process the electric cable (2); an information carrier (9, 10) assigned to a sheath clamp (49) fastened to a cable sheath (18) of the electric cable (2), and/or to a cable carrier (4) assigned to the electric cable (2) during processing of the electric cable (2), and wherein the information carrier is for identification purposes; and wherein documentation (13) of the processing of the electric cable (2) for at last one processing process of one of the plural mutually independent processing modules (46, 47, 48) is assigned to the electric cable (2) by means of the information carrier (9, 10).

[0228] A further object of the present invention is a method for producing an electric cable (2) an wherein the electric cable (2) Is rotated around a central axis (M) of the electric cable (2) while the at least one optical sensor (40, 42) detects the information.

[0229] A further object of the present invention is a method for producing an electric cable (2) and wherein the information carrier (9, 10) is of electronic form.

[0230] A still further object of the present invention is a method for producing an electric cable (2) comprises the steps: providing plural mutually independent processing modules (46, 47, 48) for processing the electric cable (2), and the plural mutually independent processing modules (46, 47, 48) process the electric cable (2) in succession; providing an information carrier (9, 10) that is assigned to the electric cable (2) during processing of the electric cable (2); and wherein documentation (13) of the processing of the electric cable (2) is compiled for at least one processing process of one of the plural mutually independent processing modules (46, 47, 48), and the documentation (13) is assigned to the electric cable (2); and wherein information relating to a successful processing process information relating to an incorrect processing process, information relating to a failed processing process and/or information related to at least one process parameter of the processing process is recorded in the compiled documentation (13).

[0231] An even still further object of the present invention is a device (1) for documenting the production of an electric cable (2) during processing of the electric cable (2), comprising: plural mutually independent processing modules (46, 47, 48) that process the electric cable (2); an information carrier (9, 10) assigned to the electric cable (2) during processing of the electric cable (2), and wherein the information carrier is for identification purposes; and wherein documentation (13) of the processing of the electric cable (2) for at least one processing process of one of the plural mutually independent processing modules (46, 47, 48) is assigned to the electric cable (2) by means of the information carrier (9, 10); and wherein the documentation (13) contains information relating to a successful processing process, information relating to an incorrect processing process, information relating to a failed processing process and/or information related to at least one process parameter of the processing process.

[0232] In compliance with the statute, the present invention has been described in language more or less specific, as to structural and methodical features. It is to be understood, however, that the invention is not limited to the specific features shown and describe since the means herein disclosed comprise preferred forms of putting the invention into effect. The invention is, therefore, claimed in any of its forms or modifications within the proper scope of the appended claims appropriately interpreted in accordance with the Doctrine of Equivalents.