DE887066C - Pulse generator with bounce-free control for the delivery of electrical surges or for power interruptions during smaller constant times - Google Patents

Description

Pulse generator with bounce-free control for the delivery of current surges or for power interruptions during times that remain the same. The invention deals with a pulse generator that completely eliminates power surges or interruptions controls bounce-free in short, constant times. The ones that have become known so far Switches which give out pulses of shorter duration have the disadvantage that the contacts tend to bounce slightly. In order to avoid these disadvantages, be according to the invention, their contacts of briefly closing or opening contact springs several pairs of contact springs of the pulse generator at their freely movable ends Pimpeln provided and guided on these by cam disks of a shift drum and actuated, which is held in its rest position by an eccentrically acting tension spring, after half a turn by means of the driver in a locked ready position brought and when triggered by the spring for the impulse in their starting position returned and braked here when the resilient driver parts are pushed back will. The pulse generator according to the invention is moved from its rest position to its working position brought about by a seated on the elevator axis, with a driver provided disc rotated the shift drum by 18ö ° and at the same time the the Shift drum is tensioned during the operation in the rotation of the spring. the Shift drum can only be rotated in one direction, namely by the fact that a pawl engages in the rest position in the disc, which sits on the elevator axis and locks in one direction of rotation. In the Working position the shift drum is held by a pawl in the on the elevator axis seated disc collapses and thus holds the shift drum in the working position. The triggering of the pulse generator is carried out by a release button, which is via a conical arrangement triggers the pawls and the shift drum for the second half Releases rotation. The start and end of the impulse are made by separate contacts causes, which are connected in series or in parallel depending on the type of impulses. On the shift drum there are some discs with curved tracks on the front sides, which are used to guide the contact springs, through the washers the springs of the normally open contact are compressed and the springs of the normally closed contact apart.

In the drawing is an exemplary embodiment of the pulse generator according to the invention shown. Fig. I shows the pulse generator according to the invention in side view; while Fig.2 shows a section A-B of the pulse generator with the tension spring on the lever arm represents. Fig. 2 shows the pulse generator in the ready position. The handles 13 and 14 are assigned to the cam disk i i and the pawl 17 to the cam disk 6. Figure 3 shows the development of the actuating disc, specifically for power interruption and for power surges.

To bounce-free switching transitions at the output and at the end of the pulse To achieve a special contact i or 2 is arranged for each process, the is inevitably controlled. It is controlled by disks 3, 4 and -5 a shift drum 6, which close the contact 2 or separate the contact i, and the switch springs of the contact are: 2 compressed by the washers 4 and S; the contact springs of the contact i are pushed apart by the washer 3. The inevitable Guide. the contacts i and 2 is arranged at the end of the contact springs, namely there are guide pimples 7, which slide on the disks 3, 4 and 5, so that occurring Vibrations of the switch springs are prevented by these disks. At a In the event of a current interruption, the contact i is opened first by the pane 3, then contact 2 is closed by disks 4 and 5. These two contacts i and 2 are connected in parallel so that the beginning and end of the pulse are controlled will. In the event of a current surge, the two contacts i and 2 are circuit-related. in series, and here is the order. the actuation reversed, namely close the disks q. and 5 first the contact 2, and then the contact i is through the Disk 3 open. Here, too, there is an inevitability from start to finish of the impulse is reached (Fig.3).

The activation of the pulse generator is as follows: The pulse generator must be brought into a prepared position for the process, once around the spring 8, which is hinged to a crank pin i8, and the shift drum 6 in rotation should move to tension, on the other hand, the contact springs for the forced actuation through the discs 3; 4. and 5 of the shift drum. In the prepared position the shift drum is brought by turning i $ o ° by using a hand knob g the elevator axis io with the disk ii attached to it is rotated by iSo °. The disk i i takes over the shift drum 6 through a resilient driver 12 the pins 22 and 23 with, the contact springs of the contacts i and: 2 are then in no contact with the shift drum 6, so. that these can move freely can be set. By a locking device 13, which in the disk i i, the sits on the elevator axis io, engages; is achieved that the pulling up of the pulse generator in only one direction, clockwise as seen from the hand knob g, takes place, in reared. Position, the disc ii is fixed by a pawl 14, so that it can no longer be moved in any direction. The further turning of the cam disk 6, caused by the tension spring 8: is prevented by the pawl 17. In this The preparatory position is a previously locked release button 15 by the pawl 16 released, namely lifted the pawl 14 by snapping it into the disk i i at the same time pull the pawl 16 out of a groove in the release button 15 via the pin 2o out. If an impulse is to be given now, press the release button 15, which disengages the pawl 17 by a cone on it and therefore the Shift drum 6 to run down, moved by the return spring 8, releases. The feather 8 gives .the shift drum such a momentum that it over the dead point and is moved beyond the resilient driver i2. After going through the kill Point the tension spring 8 is tensioned again. The pin 22 or 23 slides when Switching process past the resilient driver 12. By tightening the driver a soft braking and then a retraction of the shift drum 6 is effected. The pins 22 and 23 are pressed against the resilient driver 12 and determine so the rest positions of the shift drum 6. Die.Klecke 17 prevents through in the rest position the pin 2i engaging the pawl 14 in the disc i i. At the end of this process the shift drum before reaching the dead point. the impulse is given. It is first in the event of a power failure through the disc 3 of the shift drum 6 the contact i opened, then, namely in the one set by the disk 3 Distance, the contact 2 is closed by the disks 4 and 5. The pulse time results from the difference in the actuation approaches of the discs 3, 4 and 5. The Disc 3 is adjustable, and it. can accordingly in the limited Different times can be set. The ones to be set, for example Times are around 2 to 20 m / s. When a power surge is issued, the Sequence of the pulse generator, contact 2 1 first closed through the washers 4 and 5, and then the contact i is separated by the disk 3. In the basic position before When the pulse generator is lifted, the contact operated by disks 4 and 5 is closed, the actuated by the disc 3 contact i open, that is, the .Schaltfedern grind on the associated insulating washers 3, 4 and 5. When the pulse generator is lifted, is an interruption of the circuit is not possible, since .contact i only closes, before contact 2 opens. Since the elevator pulley i i when the pulse generator is actuated is only rotated i8o °, while the shift drum 6 travels i8o ° twice the grooves of the disk i i and the pins 22, 23 of the disk 6 .double arranged be. The pawls 13, 14, 16 and 17 rotate about the common bearing pin i9.

The pulse generator according to the invention is intended for switching Currents up to 2 amps at voltages up to 6o volts. Achievable with the pulse generator Times are maintained at an average temperature of 20 ° with an accuracy of ± 5%. The switch can also be used at temperatures from -io to + 5o °, there are additional changes in the pulse times of ± 6%.

Claims (3)

PATENT CLAIMS: i. Pulse generator with bounce-free control for the Delivery of power surges or for power interruptions «nourishing less constant Times, characterized in that their contacts are briefly closing or opening Contact springs of several contact spring pairs (1, 2) of the pulse generator on their freely movable Ends are provided with pimples (7) and on these by cam disks (3, 4, 5) a shift drum (6) are guided and operated by an eccentrically acting Tension spring (8) held in its rest position after half a turn by means of entrainment (1ä, 22, 23) brought into a locked standby position and when triggered returned to its starting position by the spring (8) for .the pulse generation and is braked here when pushing back the resilient driver parts. 2. Pulse generator according to claim i; characterized in that the beginning and end of the pulse .by separate contact spring pairs (1, 2) are effected for short-term current surges are connected in series and in parallel for brief interruptions. 3. Pulse generator according to claim 1 and 2, characterized in that by two each on the end faces the discs (3, 4, 5) attached cam tracks the springs of the normally open contact (2) compressed and the springs of the normally closed contact (i) are pressed apart. .