DE516102C - Device for charging accumulators - Google Patents

Description

Device for charging accumulators When charging accumulators it is very important that the current is taking in a certain direction in the accumulators simultaneous upstream connection of a resistor is introduced. This can be cannot be reached properly with the usual sockets, because this is easy it is possible that a mix-up of the poles occurs, as a result of which the accumulators to be damaged. You also need special resistors that z. B. to Connection of lamps and the like are not required. Now you already have screw caps of fuses such with connector sleeves for connecting a to be charged Battery equipped so that you can get electricity from them through a special plug-in device for charging the battery can be found, with the house line as a series resistor is used. There is then the risk that when removing the plug, the house line remains interrupted if you forget to conduct the connector sleeves again through a to be inserted bridge or the like. To connect.

The novelty of the invention is that this is an automatic acting resilient short-circuit bridge is used. By equipping the fuse head with a plug-in switch, the receptacles of which differ in width and are therefore unmistakable are, as is often the case with charging devices, the short-circuit bridge arises when the charging plug is plugged in automatically so that the batteries takes place with the upstream connection of the house line as a resistor and during the removal of the charging plug, the house line closes again automatically.

The invention is shown in one embodiment in the drawing, namely Fig. x shows a longitudinal section through the screw cap; Fig. 2 a fastening nut for the screw cap, seen from above, Fig. 3 the socket connection, from below seen without carrier, fig.q. and 5 the socket outlet, seen from the side, Fig.6 shows the socket connection, seen from above.

The socket b is inserted into the screw cap a from above. The same is held in place by the threaded sleeve l. This threaded sleeve l is attached to socket b after isolation by the washer c by means of the nut d by screwing the nut d onto a support e designed as a screw and securely connecting it to the socket b by clamping between an annular shoulder o and the nut d will. The socket f has a larger diameter than the socket g, so that the plug to be used for this socket b must have a thick and a thin plug pin. The socket g is melted into the insulating body of the socket b and firmly connected to a connection surface m, which connects the socket with the threaded sleeve L in a current-carrying manner. The socket f is also melted into the insulating body of the socket b, but insulated, so that there is no direct connection to the light line here. This is much more formed by a bridge k, which has an annular part around the carrier e, from which one arm leads to the receptacle g, while another arm extends into a window k of the receptacle f with a shoulder iz that is beveled is and is pushed to the side when inserting the plug, so that the other arm is lifted from the socket g, - since the bridge k rotates around the carrier e. The bridge k is by the spring i, which around the carrier e. is placed and with one end presses one arm of the bridge k against the receptacle g, while it is supported with the other end against the receptacle f, held in its rest position (Fig.3). The screw cap shown is used as follows: In normal use, the current goes through the fuse (not shown) located in the threaded sleeve l to the carrier and through the bridge k together with the spring i to the plug-in sleeve g and from there to the threaded sleeve L connected to it in the house management. The connection of the carrier c to the sleeve f by the spring i does not mean anything, since f is melted in isolation and cannot pass the current on.

If the plug is now inserted to charge the accumulator battery, then the current goes through the carrier e to the arm rz of the bridge k, the plug pin in the sleeve f, which pushes the arm n through the window da and therefore forms a good ending with this, through the cable to the accumulator battery, from there to the sleeve g and on to the threaded sleeve l into the house line. The current can no longer get from the carrier e directly to the sleeve g because the arm of the bridge k, which connects c with g in the normal state, has been lifted off g.

The unequal thickness of the plug prevents the current from flowing into the flows through the accumulators in the wrong, i.e. undesired, direction; through the Connection of the socket with the screw cap of a fuse is achieved that the house line is always connected as a resistor in front of the accumulator battery, one thus saves the involvement of a special resistor and the costs for this; the automatically acting bridge k prevents that undesirably the electricity from the house line remains switched off.

Claims (1)

PATENT CLAIM: Device for charging batteries in series with lamps connected to the power light line, characterized by the association the screw cap (a) of a fuse with a socket (b) with different wide receptacles in such a way that a short circuit bridge is required here (k) automatically adjusts itself when the charging plug is inserted in such a way that the charge of the accumulators takes place with upstream connection of the house line as a resistor and when the charging plug is removed, the house line closes again automatically.