DE563936C - Wool washing machine set in which each washing machine is provided with an individual drive - Google Patents

Description

Wool washing machine set in which each washing machine has an individual drive The main patent relates to a wool washing machine set, consisting of several individual machines connected in series through which the washing Well directed one after the other. The washing machine set has an individual electric drive of the individual machines, with each engine independent of the rest Motors from the machine assigned to it and from a common point (control panel) can be switched on and off by remote control. In addition, the entire Washing machine set, i.e. all drives, from each individual machine at the same time and the control panel are shut down. According to the embodiment of the main patent the motors are controlled purely electrically by contactors.

The present invention solves the same problem in a mechanical-electrical manner Paths through the use of electrical switchgear with mechanical control devices.

The invention consists in that the switching device for common Switching on the washing machine from a camshaft driven by an electric motor exists whose switch-on cams are held locked in their switch-on positions Control the switch of each washing machine.

An embodiment of the invention is shown in Figs. I and 2, of which Fig. i shows the mechanical closing device schematically and Fig. Figure 2 shows a circuit diagram of the plant. In both figures the setup is for only three engines drawn; the devices for the other engines are omitted, because these are the same. The circuit diagram applies to a three-phase system. It is for the sake of clarity, only drawn in one phase. The invention can be also apply to AC or DC systems.

In Fig. I, 1,: 2 and 3 are three switches, their levers with rods q., 5 and 6 are connected. A camshaft 7 carries cams 8, g and i o. The cam 9 has raised the rod 5 halfway and the cam io raised the rod6 completely, so that the Switch 2 is halfway and switch 3 is fully switched on. The camshaft 7 is Driven by the engine 12 via a back gear i i.

In Fig. 2, the camshaft 7 is only indicated. The translation to the engine 12 is omitted. The switches 1, 2 and 3 are equipped with voltage drop coils 13, 23 and 33, in the circuit of which there are push button switches 14, 24 and 34 and 15, 25 and 35, of which the push buttons 14 to 24 and 34 on the control panel and the push buttons 15 to 25 and 35 are arranged on the machine belonging to the switch in their vicinity, for example on the wall or "the machine itself. The three drive motors 16, 26 and 36 for the individual machines are also only indicated in the diagram. The camshaft drive motor 12 is switched on by pushbuttons 41 to 44. The system is fed from the network 45, which can be switched to the busbars 47 via a main switch 52 provided with voltage drop coils 46. In the circuit of the voltage drop coil 46 there are push buttons 48, 49, 50 and 51, of which the push button 51 on the control panel, the push buttons 48, 49 and 50 are each one in the vicinity of each machine nter switch with lifting magnet can be used, in which the lifting magnet is used to switch on the switch. The coil for the solenoid is energized by individual pushbuttons connected in parallel to each other, one of which is arranged on the control panel and on each individual machine, a device known per se, which is not shown in detail.

The device works like this: By pressing one of the push buttons 41 to 44 the motor 12 is switched on and rotates the camshaft only once by 36o °, so that all switches are inserted. The cams are on the camshaft staggered so that the motors are switched on one after the other and not load the network at the same time due to the high inrush currents. But you can too switch on all motors at the same time. The cams also have a special one Form, which the course of the closing movement of the individual switches the most favorable Adjusts the current curve of the inrush current. For example, the is switched off Motor 16 from the associated machine with the push button 15 from the control panel off with the push button 14. The switches i to 3 are designed so that. for example also in the position shown for the switch 3 of the cam io by pressing of the button 35 of the switch, despite the fact that the lever of the switch 3 is in the on position stands, falls out: The push buttons 15, 25 and 35 as well as the push buttons 48, 49 and 5o can be locked so that, if one of the sub-machines is being worked on, this one or the entire drive cannot be started. The entire drive will shut down by pressing one of the buttons 48, 49, 5o and 51, whereby the main switch 52 drops out by de-energizing the voltage drop coil 46 and thus the busbar 47 from Netz45. The entire system is de-energized and, as a result, so are the voltage drop coils 13, 23 and 33 so that switches 1, 2 and 3 also fall out.

Are all switches i to 3 open and is the main switch 52 closed, the entire washing machine set can be activated by pressing one of the Push buttons 41 to 44 switched on from the control panel or from the individual machine will. However, if the switch 52 is open, it must be before the washing machine set can be switched on by pressing the push buttons 41 to 44, the switch 52 only in a manner known per se by exciting the lifting magnet inserting it by pressing one of the parallel to each other, on the control panel and the Push buttons arranged on the individual machines can be closed.

Claims (1)

PATENT CLAIM: Wool washing machine set, in which each individual washing machine is provided with an individual drive, according to Patent 553 896, characterized in that the switching device for jointly switching on the drive motors consists of a camshaft (7) driven by an electric motor (12) whose switch-on cams (8, 9, io) control the switches (1, 2, 3) of each drive motor (16, 26, 36), which are held locked in their switched-on positions.