NO171528B - COMPONENT ASSEMBLY FOR SECURING ELECTRIC CABLES IN DISTRIBUTORS IN TELECOMMUNICATIONS - Google Patents

Abstract

The module (1) which can be connected to a film module of the distributing device is fitted with overvoltage arresters (6) as a lateral member to earth and current fuses (5) as a longitudinal element. The pin of the fuses (5) adjacent to the overvoltage arresters (6) is electrically connected to the non-earthed pin of the overvoltage arrester. The overvoltage arresters (6) are provided with fusing links (7) which melt when they overheat. A multiple earth (8) is connected to the other pins of the overvoltage arresters (6) with spring fingers (14). The earthing fingers project over the overvoltage arresters up to beyond the free ends of contact parts (4) for the melting fuses (5). When the fusing ring (7) melts, the spring finger (14) makes contact with the contact part (4). <IMAGE>

Description

The invention relates to a component assembly for securing electrical lines in distributors of telecommunications systems, in particular telephone systems, where the component assembly is provided with contact surfaces on both sides of the component assembly circuit board, located in a row next to each other, and which can be connected to contact springs in a layer component of the distributor.

Such a component assembly is known from GB-PS No. 1 53 4 967. The current fuses and surge arresters are attached at their poles with contact pieces which are attached to a carrier part of the component assembly. The contact pieces end in contact surfaces which are arranged along a longitudinal edge of the component assembly and which are connected to sockets on the layer component's contact springs. The carrier part is made as an injection molded part like the contact pieces

is inserted in. The contact pieces, like the current fuses, extend mainly vertically in the row direction. The small, tubular current fuses are held at their ends between raised contact parts on the contact pieces, which extend from the contact surfaces to both sides of the component assembly's support part. The contact parts are bent by the contact pieces about a bending edge lying in the longitudinal direction of the fuses.

It can be seen in the drawing that a pole for the current fuse is located

close to the associated surge arrester. This pole is directly connected to a pole on the surge arrester at the spring leg of the associated contact piece. The other pole of the surge arrester rests against a bent-up flange on a strip-shaped grounding multiple which is connected with a grounding spring to a receptacle for the layer components and component assemblies.

According to FR-PS No. 2 341 974, a protective plug for a distributor has, in addition to the surge arresters, also current fuses. These are arranged on mutually opposite sides of a circuit board. By arranging the protection components on both sides of the circuit board, the protection plug becomes significantly thicker, whereby the separation distance between the layer components lying opposite each other in the distributor is increased. The surge arrester and current fuses are connected with completely separate contact parts and current flows, so that a correspondingly greater number of contact transitions is obtained.

Furthermore, it is known from DE-PS no. 25 08 845 to use component assembly without current fuses, whereby the surge arresters standing vertically on the carrier part with their grounded poles rest against the spring fingers on a U-shaped bent grounding plate. The other pole of the surge arrester rests on a flat fusible link that rests against a contact zone on the contact piece. The contact piece has a U-shaped upturned section whose highest point reaches close to the ends of the spring fingers. When the fusible link is melted, the spring finger lowers so far that the contact piece is immediately connected to earth.

The purpose of the invention is to provide a component assembly provided with current fuses and surge arresters with such a short-circuit possibility and little additional cost.

This purpose is achieved by the invention according to claim 1. As the spring finger extends to close to the contact part for the current fuse, it can e.g. in a space-saving way, the bent section is dispensed with. When melting melt-

ket, the spring finger immediately contacts the contact part of the current fuse, so that the corresponding cable run is immediately connected to earth.

Advantageous further developments of the invention are characterized in claims 2-7.

In the further development according to claim 2, it is possible to cost-effectively realize the two-sided arrangement of the current flows on a printed circuit board. With the vertical arrangement of surge arresters, these can be arranged space-savingly offset in relation to each other with a small separation distance. The contact zones for the surge arresters are made as simple extensions of the current courses. The surge arrester with the fusible links is clamped between the circuit board and the spring fingers.

In the further development according to claim 3, a double contact with a correspondingly higher contact safety between the contact part and the spring finger is made possible.

In the further development according to claim 4, the grounding multiple can be attached in a simple way to the component assembly without additional fasteners. As the spring fingers not only lie above the surge arresters, but also the contact parts exposed to surges for the current fuses, contact safety for the component assembly is also increased.

In the event of a further development in accordance with requirement 5, the benefits become

by an injection molded part linked together with those for a printed circuit board. The component assemblies can be carried out optimally due to better manufacturing and fitting as well as handling.

In the further development according to claims 6 and 7, with the help of different contact parts, different current fuses can be used for the component assembly without special changes.

In the following, the invention will be described in more detail in connection with the embodiment examples shown in the drawing. Fig. 1 shows an elevation in section through a component assembly for securing electrical cables in distributions in telephone exchanges.

Fig. 2 shows the component assembly in fig. 1 view from above.

Fig. 3 shows part of the component assembly in fig. 1 side view. Fig. 4 shows the component assembly in fig. 1 with other contact parts and other circuit breakers.

Fig. 5 shows the component assembly in fig. 4 seen from above.

Fig. 6 shows a contact part in the component assembly of fig. 4 sets in elevation.

Fig. 7 shows the contact part of fig. 6 seen from above.

Fig. 8 shows part of the component assembly in fig. 4 with a current fuse immediately before insertion.

According to fig. 1,2 and 3, a component assembly 1 consists of a double-sided plated circuit board 2, a cover part 3, contact parts 4, current fuses 5, surge arresters 6, fuses 7 and a grounding multiple 8. The circuit board 2 is provided with contact surfaces along one of its longitudinal edges on both sides 9.9a for the contact springs 10 on a layer component in a distributor in a telephone exchange. The two overlying contact springs 10 are connected electrically

trically with each other over the current courses 11 on the circuit board 2, the contact parts 4 and the current circuit 5. One of the current courses II and the contact surface 9 is arranged on the side of the circuit board 2 which faces the current fuses 5 and the surge arresters 6 and over the corresponding contact spring 10 connected with a branch of a subscriber line leading to the outside. This current

run extends under the surge arrester 6 where it forms an extended contact zone for the fuse piece 7 which is fixed between the surge arrester 6 and the contact zone. This current race 11

is thereby led over a plated-through solder eye which is close to the contact zone for the surge arrester 6. One of the contact parts 4 for the current fuse is soldered into this solder eye. The second contact part 4 is soldered into a solder eye close to the contact surface 9, as this is connected to the current flow which is on the other side of the circuit board 2, and ends in the contact surface 9a.

The flat contact parts 4 are fork-shaped and hold between spring legs 12 the current fuses 5 at their poles. They stand vertically with a soldering pin 13 soldered into the plated-through holes on the circuit board 2. The overvoltage arresters 6 standing vertically above the circuit board 2 and offset in relation to each other are attached between spring fingers 14 on the springy grounding multiple 8 and the fuse pieces 7. The spring fingers 14 extend to over the free end side of the adjacent and relative to each other displaced contact parts 4. The distance between the spring fingers 14

and the contact parts 4 are smaller than the thickness of the melting piece 7. When this melts off, the spring finger 14 rests against the contact part 4 so that the cable run is immediately connected to

earth. At its free end, the spring finger 14 is slotted over the contact part 4, so that it forms a double contact with this.

The grounding multiple 8 is laid out as a U-shaped bent plate part which rests against the circuit board 2 with a leg and grips around the component assembly 1.

The injection-molded cover part 3 is attached to the circuit board 2 and connected to it by heat bending the protruding pins 15 that protrude through the holes on the circuit board 2. The cover part 3 forms a receptacle for the surge arrester 6

and the current fuses 5 and is provided with a surrounding protection hexagon 16 which stabilizes the component assembly mechanically. In addition, gripping parts (not shown) are arranged on the cover part 3 to facilitate the handling of the component assembly.

According to fig. 4 and 5 is the component assembly 1 instead

for the flat contact parts 4 (fig. 1) provided with U-shaped bent contact parts 18 which are soldered with a leg into a solder eye on the circuit board 2. The bendable free spring legs are turned in pairs towards each other and each clamp around a small, tubular, card current fuse 19. The free leg of the contact part 18 is pushed apart along the carrier plate and thereby presses the current fuse 19 against the bottom of the cover part 3. The distance to the two legs of the contact part 18 is adapted to the length of the current fuse 19. The contact part 18 lies with its side against the circuit board turned end

on the opposite side of the fuse against a shoulder 17 on the cover part 3. This shortens the spring path and increases the clamping force. The corresponding positions of surge arrester 4 relative to each other offset contact parts 18 have, in the extension of the soldered leg, protruding flanges 13 which point away from the circuit board 2 and which opposite the spring fingers 14 have the same function as the flat contact parts in fig. 1.

According to fig. 6 and 7 are the free spring legs on the contact part

18 curved concavely towards the current fuse 19 in the longitudinal direction, whereby this is secured in its lateral position.

According to fig. 8, the fuse 19 is first pressed against the contact part 18 with an inclined end. The contact part 18 has such a large spring reserve that it is spread out sufficiently far so that the other end side of the current fuse 19 can slide past the bottom cut of the second contact part 18. This rests with its free leg end against an opening 20 which prevents a too strong return - suspension of the pre-tensioned, free spring leg.

Claims (7)

1. Component assembly (1) for securing electrical cables in distributors for telecommunications systems, especially telephone systems, where the component assembly (1) is provided with contact surfaces (9,9a) on both sides of the component assembly's circuit board (12), located in a row next to each other and which can be connected to contact springs (10) in a layer component of the distributor, where the fixed contact spring is electrically connected to a pole on a surge arrester (6) as a cross element to earth, where the surge arrester (6) is provided with a fusible link (7) , where on the other pole of the surge arrester (6) there is a spring finger (14) of an earthing multiple (8), where the spring finger (14) is extended beyond the surge arrester (6), and where the component assembly (1) in the area of the extended end of the spring finger (14) is provided with a contact point connected to the first contact surface (9), whose distance from the spring finger (14) is less than the thickness of the fusion piece (7), characterized in that component assembly one (1) in addition to the surge arresters (6) is provided with current fuses (5,19) as a longitudinal element and whose two poles are connected to first and second contact parts (4,18), of which the first is connected to the first contact surface ( 9) and the other with the second contact surface (9a), that the first contact parts (4,18) connected to the surge arrester (6) are arranged in the area of the free ends of the spring fingers (14), and that the contact point (13) of the spring finger (14) is formed on the free end of the first contact part (4,18). 2. Component assembly according to claim 1, characterized by the fact that the contact parts (4,18) are soldered vertically into a double-sided plated circuit board (2), that the associated surge arrester (6) with its central axis stands vertically on the circuit board (2) , and that the spring finger (14) rests against the pole of the surge arrester (6) facing the circuit board. 3. Component assembly according to claim 1 or 2, characterized in that the spring finger (14) is slotted at its free end. 4. Component assembly according to claim 2 or 3, characterized in that the grounding multiple (8) is made as a U-shaped bent plate part and clamped to the component assembly (1) over the back of this. 5. Component assembly according to one of the preceding claims, characterized in that the circuit board (2) is fitted with a cover part (3) made of plastic, provided with recesses for receiving the surge arrester (6) and/or the current fuses (5) . 6. Component assembly according to one of the preceding claims, characterized in that the contact part for receiving the small, plate-shaped current fuses (5) is flat and has a fork-shaped punch contour. 7. Component assembly according to one of the preceding claims, characterized in that U-shaped bent contact parts for the small, tubular current fuses (19) with a leg are soldered into the circuit board (2) and in the extension of these legs have protruding flanges (13 ), which is located under the free ends of the spring legs (14).