DE4433936A1 - Disconnecting plug for protecting subscriber lines from excess voltage - Google Patents

Abstract

The plug is in two parts, as shown, and the p.c. board (1) is covered by the housing (2) made of sheet steel produced in several stamping and bending steps, leaving only the end (3) projecting with its contact strips. On the housing there are soldering tags (4) engaging in holes in the p.c. board, and these are then soldered in to provide electrical contact. A contact shoulder (7) is shaped to make good contact with the housing.

Description

The invention relates to a disconnect plug for the span Protection of connecting cables according to the preamble of Claim 1.

In the main application P 43 40 332.8 there is a isolating plug for described the overvoltage protection of connecting lines, the consists of only two parts, one made of sheet metal in several Stamped and Bie progressively manufactured housing is provided. This housing has contact springs, making an electrical Contact is made to a printed circuit board, the one Circuit arrangement for deriving overvoltages contains. For mechanical connection of the housing with the Printed circuit board latches are provided, which are in notches in the Intervene circuit board.

Since such a housing by attaching latches and Contact springs is relatively complex, and several steps te requires, the object of the invention is that electrical and mechanical connection of the housing with the Printed circuit board so that it is easier and cheaper cheaper manufacture of the housing is made possible.

This task is solved by a combination of features, such as it is specified in claim 1.

This is advantageously achieved that for the elec trical and mechanical connection of the housing with the ladder a simpler housing is sufficient, which is cheaper is to be delivered.

An embodiment of the invention is described below explained in more detail by drawings.

It shows Fig. 1 is a perspective view of a complete plug with offset Pictured housing.

Fig. 2 is a perspective view of the housing view from below with solder tails.

Fig. 3 shows the arrangement of Herge in a multiple printed circuit boards.

Fig. 1 shows a circuit board 1 , which is covered by a housing 2 . This housing 2 is mechanically and electrically connected to the circuit board 1 , with no additional fastening parts being required. The circuit board protrudes with one end 3 out of the housing and serves as a direct plug connection to the isolating strip into which the isolating plug is inserted. For this purpose, the front edge of the end 3 of the circuit board 1 is chamfered.

On the circuit board 1 there are all components necessary for a circuit arrangement for surge protection in accordance with the respective requirements. The components are connected to one another in a known manner with conductor tracks, as is necessary by the respectively predetermined circuit arrangement. The circuit board 1 can thus be manufactured with a different layout and different equipment. At the edges of the protruding from the housing 2 end 3 of the circuit board 1 there are contact strips which produce the electrical connection between the isolating strip and the isolating plug. These zones provided for the contact strips may of course not be equipped with components. In a double-laminated circuit board 1 , there are thus four contact points, so that the circuit arrangement required for overvoltage protection can be inserted into the connecting line like a four-pole connection.

In FIG. 2, the housing 2 is shown in perspective view. At the edges of the housing 2 are solder flags 4 , which engage in holes not shown in the circuit board 1 and are soldered with potential areas located there. In addition, the housing 2 has a contact lug 7 (see also Fig. 1), which engages in the housing when inserted into the separating strip and thus also produces an electrical contact. Thus, the housing 2 is both mechanically and electrically connected to the circuit board 1 and also to the isolating strip.

Fig. 3 shows the manner in which the printed circuit boards 1 can be prepared as a multiple benefits. 8 In addition to the bores, not shown, which are required for equipping and through-contacting conductor tracks, a multi-use 8 has further holes 9 , which are located on the boundary lines of an individual circuit board 1 . When separating the multiple use 8 in individual circuit boards 1 , these Bohrun gene 9 to notches 5 , which produce a transition to the narrower end 3 of the circuit boards. More holes are in the Lei terplatte 1 for receiving the solder tails 4 .

A disconnect connector designed in this way consists of only two parts, namely the printed circuit board 1 and the housing 2 , both of which can be produced automatically. The assembly of the circuit board with the housing is done in one operation by soldering, which is also easy to carry out automatically. In this way, an inexpensive isolating plug is created, which meets all the requirements for overvoltage protection of connecting cables accordingly to the circuit board version and assembly.

Claims (3)

1. Disconnect plug for overvoltage protection of connecting cables for plugging into isolating strips of main distributors in switching systems, with a circuit arrangement for discharging overvoltages occurring on a printed circuit board located in the plug, the entire plug consisting of only two parts, and the printed circuit board of one is covered in several stamping and bending steps in a piece made of sheet metal, so that only the end of the printed circuit board having the contact strip protrudes from the housing, characterized in that
that the housing ( 2 ) has solder lugs ( 4 ) which engage in holes in the printed circuit board ( 1 ) and when soldering to potential surfaces of the printed circuit board ( 1 ) an electrical and mechanical contact is created,
and that a contact lug ( 7 ) is molded onto the housing ( 2 ) in such a way that when the plug is inserted, an electrically conductive connection with the housing of the separating strip is produced. 2. Isolating plug according to one of claims 1 or 2, characterized in that the protruding from the housing ( 2 ) end ( 3 ) of the Lei terplatte ( 1 ) is chamfered, and that with a double-laminated circuit board ( 1 ) a four-pole connection Separating strip is made. 3. Disconnect plug according to one of claims 1 or 2, characterized in that the printed circuit board ( 1 ) is produced as a multi-use ( 8 ) and a separation into individual pieces takes place only after the assembly, wherein in the multi-use ( 8 ) existing holes ( 9 ) of the individual circuit board ( 1 ) to notches ( 5 ), which produce a transition to the narrower end ( 3 ) of the circuit board ( 1 ).