DE1112574B - Overvoltage protection for electricity meters - Google Patents

Description

Surge protection for electricity meters around the voltage coils and other sensitive parts (e.g. additional tariff devices such as synchronous clocks, relays etc.) to protect an electricity meter from overvoltages such as can reach the network through lightning strikes or other surge voltages, appropriate protective devices are required. For meters with a metal housing the overvoltage protection is achieved, for example, that on the inside of the meter housing ending terminals screws are attached with their pointed ends reach through the underside of the housing and face a metal tab of the housing that extends below the terminal block. This arrangement is not only unfavorable because it is inside the meter housing is arranged and because of the inevitable manufacturing tolerances only with difficulty can be set precisely, but also because it is only for meters with a metal housing can be used. With overvoltage protection device arranged inside the meter housing there is also the risk of metal in the housing if arcing occurs evaporates and precipitates in places where it is undesirable.

There are already electricity meters known that have a Surge protectors are fitted on the terminal block outside of the actual Meter housing is attached, but this well-known overvoltage protection is off also unfavorable for various reasons. Namely, in this arrangement there are several Metal parts required that must be specially attached to the clamps and interact with other metal parts attached to the terminal block. Apart from the fact that it is inconvenient to use a large number of individual parts to have to, the assembly is also very difficult, since the manufacture of a precisely defined distance between the parts attached to the clamps and the parts on the Terminal block attached parts is difficult.

The invention relates to an overvoltage protection device which is arranged on the terminal lock outside the meter housing and which forms spark gaps with the voltage connections. It is its task to avoid the mentioned disadvantages of the known devices of this type, and it achieves this according to the invention in that a metal strip is provided as a common opposite pole for all voltage connections with sheared, resilient tongues that rest on the terminals with insulating spacers, Forms spark gaps directly to the connection terminals. The metal strip is expediently attached to the open rear side of the terminal block, covered with an insulating material plate on the outside. It has hump-like bulges on the sheared tongues that serve as spark horns. According to a development of the invention, however, a metal strip can also be provided as overvoltage protection, which is accommodated on an insulating carrier together with spark horns, which are adjustable in their distance to this, the insulating carrier with conductive connecting members connected to the horns on the The bottom or front of the terminal block is attached to the voltage terminals.

The invention is based on two exemplary embodiments with reference to the drawing explained in more detail. In Fig. 1 is the back and bottom of the terminal block of an electricity meter with a surge protection arranged on the back in perspective Illustration shown, while Figures 2 and 3 show details thereof; Fig. 4 shows a top view of the top in another exemplary embodiment overvoltage protection arranged on the underside of the terminal block; Fig. 5 gives a Sectional view along the line A-B of FIG. 4 again.

In the case of the lower part 1 of the meter, which is only indicated and only partially drawn in FIG. 1, the rear side of the terminal block 2 is provided with an opening through which the terminals 3 to 9 are accessible. The metal strip 10 rests on the open rear side of the Klenunenblock. Narrow tongues 11, 12, 13 and 14 are sheared out of the metal strip and are bent towards the voltage terminals 5, 7, 9 and the neutral conductor terminal 3. They are designed to be resilient and rest with insulating material spikes 15, 16, 17 and 18 on the terminals. Each tongue is provided with a hump 19, 20, 21 or 22 (Fig. 2 and 3). The hump-like bulges form spark gaps with the associated terminals, the size of which is determined by the length of the insulating material spikes. The metal strip 10 is held on the terminal block by a cover plate, not shown, which is glued to the terminal block and otherwise attached to it. With the help of the spark gaps, overvoltages that occur that exceed a certain value are rendered harmless by discharging. The discharge takes place outside of the actual meter housing, so that any harmful influence on the internal parts of the meter is excluded.

In the exemplary embodiment according to FIG. 4, the lower part of the counter is 1 and the terminal block 2 located thereon is shown in plan view. As overload protection is here a metal strip 23 is provided, which together with spark horns 24, 25, 26 and 27 is attached to an insulating carrier 28. The sparks become with the help of metal pins 29, 30, 31 and 32, which are also used at the same time for attachment of the insulating material on the terminal block and through openings on the underside of the terminal block and to the voltage terminals 33, 34, 35 and to the neutral terminal 36 are connected, held on the insulating material carrier (Fig. 5). The metal pins are screwed into the insulating support and with the help set by nuts. The spark horns sit on the thread of the metal pins, and their distance to the metal strip can be determined by the screwing depth of the pins in the insulating material carrier can be determined. The metal strip is in a recess of the insulating material carrier, and the spark horns protrude over the edge this recess, so that their free ends are directly opposite the metal strip. The spark horns together with the metal strips form spark gaps, so that too due to this arrangement in the event of overvoltages that cause a certain the size of the spark gap exceed the given value, a protection for the voltage coils of the meter and the other internal parts is given. Damage to the internal parts or a harmful influence by metal vapors is also with this arrangement excluded because the overvoltage protection is located outside.

The solutions given in the exemplary embodiments are also both for meters with a metal housing and for those with an insulating housing useful.

Claims (3)

PATENT CLAIMS: 1. Overvoltage protection for electricity meters, which is arranged on the terminal block outside the meter housing and forms spark gaps with the voltage connections, characterized in that a metal strip (10) is provided which acts as a common opposite pole for all voltage connections (3, 5, 7 , 9) with sheared, resilient tongues (11 to 14), which rest with insulating spacers (15 to 18) on the terminals, forming spark gaps directly to the terminals. 2. Surge protection for electricity meter according to claim 1, characterized in that the metal strip (10) is attached to the open rear side of the terminal block (2) covered with an insulating material and to the sheared tongues (11, 12, 13, 14) Has hump-like bulges (19, 20, 21, 22) which serve as spark horns (Fig. 1 to 3). 3. Overvoltage protection for electricity meter according to claim 2, characterized in that the metal strip (23) is housed together with the spark horns (24, 25, 26, 27), which are adjustable in their distance to this, on an insulating support (28) and that the insulating material is attached to the voltage terminals (33, 34, 35, 36) with conductive connection members (29, 30, 31, 32) connected to the horns on the lower or front side of the terminal block (FIG. 4). References considered: U.S. Patent No. 2,740,922.