DE9012222U1 - Test facility for distribution equipment in telecommunications technology - Google Patents

Description

KRONE Aktiengesellschaft

1000 Berlin 37 ARP 90-16 DE-GM

TEST DEVICE FOR DISTRIBUTION DEVICES IN TELECOMMUNICATIONS TECHNOLOGY

The innovation relates to a test device for distribution devices in telecommunications technology, with a test disconnect plug consisting of a handle part and several plug tongues located next to one another in one plane and attached to the handle part.

A test device of the generic type is already known from DE 31 47 144 C2. In this test device, several test disconnect plugs are guided and held in guide slots in a housing. The individual test disconnect plug has ten plug tongues lying next to each other in one plane, which are fastened in the handle part in which the individual plug tongues are electrically connected to the respective individual conductors of a cable. The test disconnect plug can be wired on one side, so that by simply turning the test device by 180°, the inner or outer lines on the distribution device can be measured alternately. With test disconnect plugs wired on both sides, the inner and outer lines can be guided to a test device and checked at the same time. The disadvantage here is that the test device is expensive to manufacture, especially since on the one hand the individual plug tongues of a test disconnect plug are connected to the respective individual conductors

ARP200890 90-16 DE-GM

of the associated cable must be electrically connected and because, on the other hand, a large number of test disconnect plugs must be arranged in the housing provided with guide slots.

The innovation is therefore based on the task of creating a test device for distribution devices in telecommunications technology with a test disconnect plug that is simple and inexpensive to manufacture.

To solve this problem, the innovation provides that the plug tongues and the handle part of the test disconnect plug are formed in one piece from flat plastic material, that the contact tongues have contact surfaces on both sides and the handle part has contact points assigned to them, and that the contact surfaces are connected to the assigned contact points by conductor tracks applied to the plastic material. Such a test disconnect plug for a test device for distribution devices in telecommunications technology is simple and inexpensive to manufacture and can be plugged in large numbers into the individual disconnection strips of a distribution device in telecommunications technology in order to check newly switched connections from the subscriber to a newly switched switching device, in particular a digital local exchange, during switching work within a distribution device. To check the wire pairs for the internal and external lines connected to an individual disconnection strip, a plug-in coupling provided with contact springs is plugged onto the handle part, whereby the contact springs of the plug-in coupling are connected to the contact points of the handle part. The plug-in coupling is connected to a test device via a multi-core cable. This means that the connections are made with a single plug-in coupling

ARP200890 90-16 DE-GM

all isolating strips of a telecommunications distribution system are checked one after the other. If the connection is switched correctly, at the time of switching, a isolating plug is plugged into the old main distributor and the test isolating plug is pulled out of the newly connected main distributor.

Further advantageous embodiments of the innovation emerge from the further subclaims.

The innovation is explained in more detail below using a test facility for distribution equipment in telecommunications technology. It shows:

Fig. 1 is a top view of a test disconnect plug, Fig. 2 is a side view,

Fig. 3 the test isolating plug inserted into the isolating strip of a main distribution board with plugged-in coupling and multi-core cable connected to it and

Fig. 4 a schematic diagram of the connections when switching from an old main distribution board to a new main distribution board with a connected test device.

The test device for distribution devices in telecommunications technology comprises a large number of test disconnect plugs 1, one of which is shown in Figures 1 and 2

ARP200890 90-16 DE-GM

This consists of a handle part 2 and several plug tongues 3, which are located next to one another in one plane and are attached to the handle part 2. In the exemplary embodiment, the test disconnect plug 1 comprises a total of eight plug tongues 3 for testing four double wires. The plug tongues 3 and the handle part 2 of the test disconnect plug 1 are formed in one piece from flat plastic material of thickness d. The plastic material is in particular glass fiber reinforced epoxy resin. The contact tongues 3 have contact surfaces 4, 4' on both sides at their free ends. The handle part 2 has contact points 5, 5' assigned to them. The contact surfaces 4, 4' are connected to the assigned contact points 5, 5' via conductor tracks 6, 6' applied to the plastic material. The contact points 5, 5' are arranged on the side of the handle part that is at the top in Fig. 1. The conductor tracks 6' of the back of the handle part 2 and the plug tongues 3, which are located at the bottom in Fig. 2, are plated through the plastic material using contact rivets 7. In the handle part 2, between the middle conductor tracks 6, 6' of the handle part 2, a through hole 8 is formed for attaching a pulling tool (not shown). Two contact tongues 3 are provided with clamping cams 9 cast into the plastic material, which serve to lock the test disconnect plug 1 into the associated connection block of the distribution device. The clamping cams 9 are rounded below the radius R and increase the thickness d of the test disconnect plug 1 to the thickness D (Fig. 2).

Fig. 3 shows the arrangement of a test disconnect plug within a disconnect strip 10 installed in a distribution device. The individual plug tongues 3 of the test disconnect plug 1 separate the contact springs of the

ARP200890 90-16 DE-GM

Wire pairs a, a'; b, b' of a line, whereby the line connections are led out via the contact surfaces 4, 4' and the conductor tracks 6, 6' with the contact points 5, 5' on the handle part 2 of the test disconnect plug 1. A plug-in coupling 11 provided with contact springs (not shown in detail) is plugged onto the handle part 1, which serves to contact the contact springs with the contact points 5, 5' of the handle part 2 and which is connected to a test device 13 via a multi-core cable 12 and another plug-in coupling. The multi-core cable 12 is connected via the additional plug-in coupling (not shown in detail) to the selection switch 14 built into the test device 13, which, depending on the selection position, connects a pair of wires of the connection block 10 via the multi-core cable 12 to a telephone set 15 assigned to the test device 13, as shown in Fig. 4. The connection is made via an analog-digital switch 16. In this way, an analog or a digital telephone set 15 can be connected to the selection switch 14 with the associated ISDN-NTBA converter 17, whereby the converter 17 is provided with a mains connection 18 for a supply voltage of 220 V. Connection boxes 19 enable the optional connection of an analog or digital telephone set 15 to the test device 13.

The basic circuit diagram shown in Fig. 4 shows a main distributor 20 of an older design, on the horizontal side of which an electro-motor-driven rotary selector 21 is connected via conventional switching strips 22 into which isolating plugs 23 can be inserted, and on the vertical side of which the subscriber external lines 25 are connected via isolating strips 24. The connection between the electro-motor-driven rotary selector 21 and the external lines 25 is made via conventional switching wires 26. To switch the conventional main distributor 20

ARP200890 90-16 DE-GM

to a digital local exchange 27, the horizontal side of the main distributor 20 is fitted with new isolating strips 10, the inner lines of which are connected to the new digital local exchange 27 via new jumper wires 28 and the outer lines of which are connected to the isolating strips 24 on the vertical side of the main distributor 20 via new jumper wires 29. Before the connection is made between the new jumper wires 29 and the isolating strips 24 on the vertical side of the main distributor 20, the test isolating plugs 1 are plugged into the isolating contacts of the isolating strips 10. With the plug-in coupling 11 plugged onto the individual test isolating plugs 1, the newly switched connections can now be checked using the test device 13. Thus, by setting the selection switch 14 accordingly, the inner lines, i.e. the new switching wires 28 leading to the new digital local exchange 27 and, on the other hand, the external lines, i.e. the new switching wires 29 leading to the separating strips 24 on the vertical side of the main distributor 20, are checked, whereby the respective position "inside" or "outside" of the selection switch 14 must be set. An analog or digital ISDN-capable connection can be tested using the analog-digital switch 16.

ARP200890 99-16 DS-GM

Claims (8)

PROTECTION CLAIMS 1. Test device for distribution devices in telecommunications technology, with a test disconnect plug consisting of a handle part and of several plug tongues lying next to one another in a plane and attached to the handle part, characterized in that the plug tongues (3) and the handle part (2) of the test disconnect plug (1) are formed in one piece from flat plastic material, that the contact tongues have contact surfaces (4,4') on both sides and the handle part (2) has contact points (5,5') assigned to them and that the contact surfaces (4,4') are connected to the assigned contact points (5,5') by conductor tracks (6,6') applied to the plastic material. 2. Test device according to claim 1, characterized in that the contact points (5,5') are arranged on one side of the handle part (2) and the associated conductor tracks (6,6') of one side of the handle part (2) are contacted through the plastic material. 3. Test device according to claim 1 or 2, characterized in that a through hole (8) for attaching a pulling tool is formed in the handle part (2) between the middle conductor tracks (6,6') of the handle part (2). -, ARP200890 90-16 DE-3M 4. Test device according to one of claims 1 to 3, characterized in that at least one contact tongue (3) is provided with clamping cams (9) cast into the plastic material of the test disconnect plug (1). 5. Test device according to one of claims 1 to 4, characterized in that the material of the plastic body of the test disconnect plug is glass fiber reinforced epoxy resin. 6. Test device according to one of claims 1 to 5, characterized in that a plug-in coupling (11) provided with contact springs is provided for plugging onto the handle part (2) of the test disconnect plug (1) and for contacting the contact springs with the contact points (5, 5') of the handle part (2) and is connected via a multi-core cable (12) is connected to a testing device (13). 7. Testing device according to claim 6, characterized in that the multi-core cable (12) is connected to the testing device (13) via a selection switch (14) which, depending on the selection position, connects a wire pair connected to the isolating strip (10) via the multi-core cable (12) to a telephone set (15) assigned to the testing device (13). ARP2Ü0890 90-16 DE-GM 8. Testing device according to claim 7, characterized in that the selection switch (14) of the testing device (13) can be connected via an analogue-digital switch (16) to an analogue telephone (15) or a digital ISDN-capable telephone (15) as required. ARP200890 90.007 EM