CS212459B1 - Staircase automaton with multiple interval - Google Patents

Description

The invention relates to a staircase machine in which it solves the possibility of a repeatable interval without switching off the light circuit between individual current pulses of the control circuit.

Nowadays, staircase machines push out switches with permanent position. This is due to the fact that when using them, it is impossible to forget to turn off the set of connected lights, because it does not happen automatically. In addition to this advantage, they have the considerable disadvantage that the selection of the length of the working interval is only possible by intervention in the central switching device. As a result, these automata require a recurrent current pulse of the control circuit, and this is practically possible only after the light circuit has been switched off when the common switch for both the light and control circuit is rolled over.

As a result, the longest required interval is usually set at the delay device of the staircase automaton, and thus, after multiplying by the number of lights switched on simultaneously, unnecessary losses of electric power increase. At the same time, for example, if a short interval is repeated three times in succession, the lights are switched on and off three times, which means an increased degree of wear. At the same time, it can be stated that with increasing time more and more connected lights are increasing for every single staircase machine in accordance with the increasing size, mostly residential buildings.

The above-mentioned deficiencies are eliminated by a multiple interval staircase automat, consisting mainly of a tilt coil solenoid with a return spring and a sliding armature provided with a return spring and connected to a switch and auxiliary piston damping device for switching off and delayed control circuit after individual current pulses a piston damping device with a return spring linkage coupled to a switch for switching the lighting and for switching off the control circuit at the maximum dead center of the drawbar according to the invention, wherein the free engagement end of the solenoid armature slide engages the stepped portion of the main piston damping device this linkage is connected to the switch by a mechanical transmission to define three functional positions of the switch. _t

Immediately repeating the current pulses of the control circuit with the push button switch, depending on the number of them, extends the forward and reverse path of the main piston damping device controlling the switch of the light circuit, thereby presetting the light circuit total switching interval remotely. only after the light circuit has been switched off. By using the correctly adjusted staircase automat according to the invention, a better utilization of the consumed electric energy can be achieved by a more appropriate choice of individual aggregate switching intervals as a multiple of the optimally selected basic interval. At the same time, there is the possibility of lower wear of the lights and greater comfort of the provided service.

In the accompanying drawings, two examples of a multiple interval staircase automat according to the invention are shown. FIG. 1 is a schematic representation of the mercury switch in an overall embodiment; and FIG. 2 is a partial schematic of a staircase machine in which the stepped portion of the rod of the main piston damping device is sawtoothed.

The tilted solenoid coil 4 is held in its initial position by a return spring gg. The electromagnet sliding armature 2 is provided with a return spring g for returning, and is provided with an auxiliary piston damping device g to delay this retraction. At the same time, the electromagnet sliding armature 2 is provided with a switch 6 with a spring 16 pushing the switch contacts 6 to turn off the control circuit. The free engagement end g of the sliding armature 2 engages the stepped portion 12 of the rod g of the main piston damping device g. The rod 8 is provided with a return spring 60 and a mechanical gear 60 to define three switch positions gg. In Fig. 1, this mechanical transmission gg, 13 is shown by a three-stage deployed cam 40 which is contacted by the roller contact gg of the tilting switch 11. A mercury switch 11 is shown, with three positions I, II, III indicated.

In Fig. 2, the mechanical transmission 40, 13 is rectilinear, its coupling function to the axial spring switch 11 being already interconnected with the linkage 8 and the switches 11 and the three positions of the switch 11 already given by the arrangement of this switch gt with axial springs for positioning of his contacts. In Figure 1, the stepped portion 12 of the rod g of the main piston damping device g consists of regularly spaced rotary rollers gg. In Figure 2, the same stepped portion 14 of the drawbar 8 is formed by sawtooth steps gg. The solenoid sliding armature 2 is actuated by the individual current pulses of the control button. With its free engagement end g, the solenoid sliding armature 2 engages in the stepped portion 12 of the rod g of the main piston damping device g and retracts the rod g gradually, step by step, thereby extending the functional time of the main piston damping device g.

As the position of the rod 8 changes, the position of the switch gg changes. In the basic starting position I the control circuit is closed. In the second position II, both the control circuit and the light circuit are switched on. This combination allows the control current pulse to be repeated when the light circuit is switched on and thus allows the total switching interval of the light circuit to be extended.

In the third position III. at the maximum dead center of the rod g of the main piston damping device g, the light circuit is switched on and the control circuit is switched off. Thus, the staircase automat according to the invention is protected against unnecessary wear by unnecessary control current pulses. The circuit breaker 6 connected to the solenoid sliding armature 2 interrupts the control circuit after the current pulse and the sliding armature 2 has been ejected. By delaying the reciprocating movement of the anchor bolt 5, the time required to release the push-button of the control push-button switch is created in order to prevent unwanted automatic re-switching in an uncontrolled sequence, independently of the user's will.

Claims (1)

SUBJECT OF THE INVENTION The multiple-step staircase automat consists, in particular, of a recoil spring-loaded tilt coil with a return spring-mounted sliding anchor connected to a switch and an auxiliary piston damping device for switching off and delaying the control circuit after individual current pulses. provided with a return spring connected to a switch for switching the lighting and for switching off the control circuit at the maximum dead center of the rod, characterized in that the free engagement end (13) of the electromagnet sliding armature (2) engages the stepped portion (12) of the main piston rod (8) The damping device (7) and the rod are connected to the switch (11) by a mechanical transmission (10, 13) to define three functional positions of the switch (11).