DE29716026U1 - Device for testing cables provided with plugs - Google Patents

Description

20/12 PATENT ATTORNEYS

DR. O. LOESENBECK (1931-1980)
DIPL-ING. A. STRAcke
DIPL-ING. K.-O. LOESENBECK

Representative at the European Patent Office

TSK Test Systems GmbH

Strengelrott 4 Jöllenbecker Straße 164 PO Box 101882

32457 Porta Westalica D-33613 Bielefeld D-33518 Bielefeld

Description Device for testing cables with connectors

The present invention relates to a device for testing cables provided with connectors according to the preamble of claim 1.

Such a device is known, for example, from DE 32 38 949 A1.

This device, which has proven itself in principle, is however only suitable for checking electrically conductive cables or the plugs connected to them.

However, especially in automotive engineering, more and more cables are being used that contain optical fibers in addition to electrical conductors.

It is not yet possible to check these optical fibers for continuity and correct locking with the connector using the known device.

The present invention is therefore based on the object of designing a device of the generic type in such a way that the functionality of an optical fiber present in a cable can also be tested.

LOESENBECK & STRAcke - PATENT ATTORNEYS - BIELEFELD 5 September 1997

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This object is achieved by a device having the features of claim 1.

A device designed in this way now allows the complete inspection of a cable, i.e. both electrical conductors and optical fibers that run parallel in the cable can be checked for locking errors and continuity in practically one operation.

According to an advantageous embodiment of the invention, the transmitter and receiver assigned to each optical fiber are installed in a separate housing, which can accommodate a large number of transmitters and receivers, each of which is combined to form a module.

This makes it possible to only purchase the number of modules, i.e. transmitters and receivers, that are actually required.

The connection, which also consists of an optical fiber, between the optical fiber test part in the connector receptacle and the module is made by screwing, so that the length of the optical fiber can be adjusted to the respective conditions by simply shortening it.

According to a further idea of the invention, it is provided that a cover plate is arranged in the plug receptacle, by means of which contamination of the fiber optic test part is prevented when not in use. This cover plate is connected to a preferably pneumatically operated cylinder, by which the cover plate is retracted when the plug to be tested is inserted.

The optical fiber test part is practically formed by an optical fiber with a defined light transmittance, through which a light signal is transmitted from the transmitter, which is registered accordingly by the receiver connected at the other end via another optical fiber if the optical fiber to be tested passes through without any problems.

Depending on the strength of the received light signal, it can be determined whether the fiber optic cable is properly locked and continuous.

In addition to the stationary arrangement of the device within a test table, it is also possible to integrate the device into a hand test adapter.

LOESEiMBECK & STRACKE - PATENT ATTORNEYS - BIELEFELD 5 September 1997

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The functional parts with which the test must be carried out are identical to those of a stationary device.

Further advantageous embodiments of the invention are characterized in the subclaims.

Embodiments of the invention are described below with reference to the accompanying drawings.

Show it:

Figure 1 is a schematic representation of a device in use,

Figure 2 shows an embodiment of the invention in a schematically illustrated cross section,

Figure 3 shows another embodiment in a schematic plan view.

Fig. 1 shows a device for testing cables provided with connectors 3 for locking errors and continuity, which has at least two coupling elements 1.

As Fig. 2 shows particularly clearly, each coupling element 1 is provided with a plug receptacle 2, the contour and configuration of which is adapted to a specific plug 3.

For testing purposes, the plug 3 is inserted into the plug receptacle 2 and secured against being pulled out by locking devices 12.

A connector 3 is connected to both ends of electrical conductors 11 and an optical fiber 4, which together form part of the cable.

At the base of the plug receptacle 2, test needles 15 are fixed, which protrude into corresponding openings in the plug 3 and, by spring pressure on the one hand and electrical contact on the other hand, determine whether the electrical conductors are properly fixed in the plug 3.

Also fixed to the base of the connector receptacle 2 is a test part 16 which essentially consists of an optical fiber 5.

The light exit end of the optical waveguide 5, which opens into the plug receptacle 2, is protected in the non-use position, as shown in Fig. 2, by a

LOESENBECK & STRAcke - PATENT ATTORNEYS - BIELEFELD 5 September 1997

Description Sheet

A test pin 15 is attached to the base of the connector receptacle 2, with which the electrical permeability of an electrical conductor can be determined, and a test part 16 to which the optical fiber 15 is connected is fixed.

Since the hand test adapter is only used occasionally and therefore the plug receptacle 2 does not always point upwards, a cover plate to protect the test part 16 is not necessary.

Such a hand test adapter is mainly used as a measuring device in motor vehicle workshops.

LOESENBECK & STRAcke - PATENT ATTORNEYS - BIELEFELD 5 September 1997

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Cover plate covered in such a way that contamination of the cross-sectional area of the optical fiber is avoided.

This cover plate 14 is connected to a pneumatic cylinder 13, with which the cover plate 14 is retracted when the plug 3 is inserted, thus creating free access for the plug 3.

From Fig. 1 it can be seen that each plug 3 connected to a cable is plugged into a coupling element 1. While an optical fiber 5, which is connected to the test part 16 of a coupling element 1, is connected to a transmitter 7, another optical fiber 6, which is connected to the test part in the other coupling element, is connected to a receiver 8.

This check makes it possible to determine exactly whether the light signal emitted by the transmitter passes the light wave transmitter 4 without any problems or whether there are continuity errors, for example due to kinking of the optical waveguide 4.

The verification method is state of the art and therefore does not need to be described in detail.

A transmitter 7 and an associated receiver 8 are combined in a module, which is arranged in a housing 10.

Since devices according to the invention are installed in large numbers in a test table (not shown), a corresponding number of modules, consisting of transmitter 7 and receiver 8, can be accommodated in the housing 10, resulting in a very simple construction overall.

The modules are connected to a computer via bus lines 9, which carries out an evaluation and displays the test result.

The embodiment according to Fig. 3 shows a hand test adapter, the function of which essentially corresponds to the function of the coupling element 1.

However, the housing 19 corresponding to the coupling housing 1 (Fig. 2), which also has a plug receptacle 2, is not permanently installed but can be handled manually, whereby the housing 19 can consist of a plastic cylinder. A locking device 18, with which a plug to be inserted is held, can be actuated mechanically.

LOESENBECK & STRAcke - PATENT ATTORNEYS - BIELEFELD 5 September 1997

Claims (6)

20/12 PATENT ATTORNEYS DR, O. LOESENBECK(IgSi-I ₉ SO)
DIPL-ING. A. STRAcke
DIPL-ING. K.-O. LOESENBECK Representative at the European Patent Office TSK Test Systems GmbH Strengelrott 4 Jöllenbecker Straße 164 PO Box 101882 32457 Porta Westalica D-33613 Bielefeld D-33518 Bielefeld Protection claims 1. Device for testing cables provided with plugs (3) for locking errors and continuity, with coupling elements (1), each of which has a plug receptacle (2) corresponding in its outer contour to a specific plug (3), test pins (15) being guided through each coupling element (1), and with locking elements (12) with which the plug (3) can be secured in the plug receptacle (2), characterized in that each plug receptacle (2) is provided with at least one optical fiber test part (16) assigned to a specific optical fiber (4) of the cable, which is connected to a transmitter (7) and/or receiver (8). 2. Device according to claim 1, characterized in that the test part (16) is essentially formed by an optical waveguide (5, 6) which optically contacts the optical waveguide (4) of the cable. 3. Device according to claim 1, characterized in that the test part (16) is fixed in the base of the plug receptacle (2). 4. Device according to claim 1, characterized in that the test part (16) is covered by a cover plate (14) in the non-use position. 5. Device according to claim 1, characterized in that a transmitter (7) and a receiver (8) are combined in a module which is installed in a housing (10). LOESENBECK & STRAcke - PATENT ATTORNEYS - BIELEFELD 5 September 1997 TSK : :: : $cf$jfeajJspn2chi .ßiatt 6. Device according to claim 1, characterized in that one of two of the plugs (3) connected to the end of the cable is to be arranged in a coupling element (1), one coupling element (1) being connected to the transmitter (7) by an optical waveguide (5) and the other coupling element (1) being connected to the receiver (8) by an optical waveguide (6). LOESENBECK & STRACKE - PATENT ATTORNEYS - BIELEFELD 5, September 1997