DE471481C - Control device for electrical resistors for connection to several different mains voltages - Google Patents

Description

Control device for electrical resistors for connection to several different line voltages The invention relates to variable resistors with Resistance stages connected in parallel for connection to several different mains voltages.

The well-known variable resistors with resistance stages connected in parallel, the step-by-step connection of a power consumer to any mains voltage allow are designed so that the resistances of all stages with taps are provided that correspond to the individual mains voltages in question. The taps belonging to one another at the various stages can be set up in sections be connected to each other and at the same time to the one network pole by, for example a switch blade connected to one mains pole first with that of the relevant one Mains voltage, designed as a blade contact, tap of the one Level, then by moving the knife with the same tapping of the second Stage, etc. is connected. This is how the power consumer is switched on by gradually adding further resistors or resistor parts parallel to the already switched on resistors or resistor parts.

These known devices not only have the disadvantage that when Insertion of the switching element mix-ups are not excluded, but that frequent faults also occur due to unsafe contact. The invention aims to avoid these disadvantages by taking the regulating resistor into consideration for each coming mains voltage is provided with special terminals, and that as Switching elements known and proven lever or rotary switch use Find.

The drawing shows four exemplary embodiments of the subject matter of the invention shown, namely: Fig. i a regulating resistor for two voltages, z. B. iio or 22o volts, Fig. Z the use of normal two-pole circuit breakers with rheostat according to fig. i, fig.3 a rheostat for voltages of 65, i io and azo volts, Fig. 4 the subject of Fig. 3 when using normal three-pole circuit breakers.

Three resistors bi, b2 and b $ have one end connected to a common one Line c connected, which leads to the consumer device d. The other end of the three resistors bi, b2 and b $ leads to three contacts d'-, d2 and d3, which with three shift levers ei, e2 and it can be brought into conductive contact. the The pivot points of the shift levers ei, e2 and e $ (Fig: i) are connected by a common line f connected to each other. The shift levers e1, e2 and e $ are designed with two arms in such a way that that their other lever arms are connected to three contacts g'-, g2 and g8 will can be connected to which three resistors hl, h2 and h3 are. The other ends of these resistors are connected by a common line i. electrically connected to each other.

In the embodiment according to Fig. 2, the three are double-armed The lever of Fig. Z is replaced by a double-pole circuit breaker, with the pivot points of the two switching levers of each circuit breaker are connected to one another in an electrically conductive manner are.

To switch on the consumer device, the three switch levers e1, e2 and es are turned over one after the other so that they connect the resistors bi, b2 and b3 one after the other to the lines f and i or to the resistors 1a1, h2 and 10 . If the network to which the apparatus a is to be connected has, for example, a voltage of 10 volts, the lines c and f are connected to the network of lines; so that only the resistors bi, b2 and b3 are connected between the appliance and the mains, while the resistors Iai, h2 and h3 are not connected. On the other hand, if the line voltage is z. B. 220 volts, instead of line f, line i is connected to one power pole. In this case, after closing, the switch flows through ei, e2, e; the mains current going through the consumer device a, the resistors h and b one after the other, so that, in accordance with the increased mains voltage, an increased series resistor ensures that the current flowing to the consumer device a is the same as with the aforementioned connection to an iV mains voltage of iio Volt.

The embodiment according to Fig. 3 differs from the embodiment according to Fig. Z in that each resistance stage consists of three individual resistors h1, bi, m ', h2, b2, m2 or 1a3, b3, m3. To connect these individual resistors in series, two rows of shift levers, namely ei, e2 and e3 and ni, n2 and n ', are now required. These shift levers are mechanically connected to one another, so that the two levers belonging to the same resistance level are moved by a common handle oi, o2 or os. The resistors m ', m2 and m3 are here again connected at one end to a common line c, while their other ends are led to contacts pi, p2 and p $, with which the switching levers ni, n2 and n3 are connected can. The pivot points of the three shift levers', n2 and n $ are connected to one another by a common line q. The other ends of the three shift levers n1, n2 and n3 can be connected to contacts ri, r2 and `r 'to which the individual resistors bi, b2 and b3 are connected. The pivot points of the three shift levers ei, e2 and e3 are connected to one another by a common line f. The three individual resistors hl, h2 and h3, which can be brought into contact with the shift levers ei, e2 and e3, are again connected to a common line i. connected with each other. If one of the shift levers is turned in such a way that it connects the resistors b and in with one another, the coupling through the bracket o causes the lever e to also connect the resistors b and h to one another at the same time, so that the individual resistors b, h and m always be switched to another.

In the exemplary embodiment according to FIG. 4, the switching levers ei, e2 and e3 or n1, n2 and n3 of FIG. 3, which are coupled to one another by the bracket a, are replaced by three-pole lever or rotary switches. The network is connected to lines c and g when its voltage is 65 volts, for example. In this case, when the lever n ', n2 or n3 is inserted, the individual resistors hl, h2 or h3 as well as b1, b2 and b3 are switched off. Amounts to . the mains voltage z. B. iio or 220 volts, the poles of the network are connected either to lines f and c or to lines i and c. When connected to the line f and c, only the resistors b and m are connected between the mains and consumer apparatus a, while when the mains is connected to the lines i and c, the mains current must flow through the resistors h, b and m one after the other.

The subject of the invention has the advantage that the consumable a can be connected to any mains voltage without the need to Devices or regulating resistors for different voltages in stock to keep. This device is of particular importance in the case of transportable engines or other power-consuming devices that you don't know in advance can determine what voltage will be available at the point of use. The regulation or the start-up of the power-consuming apparatus then takes place exactly as with the otherwise usual known regulating resistors.

Claims (3)

PATENT CLAIMS: i. Control device for electrical resistors for connection to several different mains voltages with parallel-connected resistance stages, each consisting of a series of individual resistors corresponding to the respective mains voltage and current strength, characterized in that both the beginnings and the ends of the series of resistors are conductively connected to one another and between the individual resistors ( b, Ft, in.) Switches (e or n) are arranged, which are electrically connected to one another at their pivot points and which switch on the adjacent individual resistors (IL, b or b, fft) one after the other. 2. Variable resistor according to claim i, in which more than two individual resistors are connected in series, characterized in that the switching lever and n) of each resistance stage (h, b, M) are mechanically coupled to one another, so that all the switching levers (e and n @ each resistance stage can only be switched on or off together. 3. Variable resistor according to claim i for two different mains voltages, characterized in that the switches (e1, e2, e3) attached between the individual resistors (b, h) of each stage are designed as double-pole lever or rotary switches. d .. control resistor according to claim i for three different mains voltages, characterized in that the pairs of switches (el-, n1, e2, n2, es, n °) attached between the individual resistors (b, h, m) of each stage are designed as three-pole lever or rotary switches are formed.