DE692120C - in motion sizes - Google Patents

Description

Control device for converting current surges into motion quantities The invention relates to a control device for converting current surges in movement quantities dependent on the time of their transmission, in the case of a rotating Control drum control body are adjustably attached to a switching point under the action of electrical surges from one to produce a control effect ineffective position brought into an effective position or vice versa and in it by a Stationary guide device arranged to the drum up to after exercising the control effect subsequent release to return to the inoperative position at the end of the guide device being held.

In known devices of this type are each by the electrical scanning devices excited magnets only for setting or triggering of intermediate links, depending on their position, the control body be able to take their effective position under spring action or against a spring action be brought into the effective position. As a result, the known devices due to the magnets excited by the scanning device, there are still considerable adjustment forces to raise.

In order to reduce these adjustment forces to a minimum, are in accordance with the invention, the control body magnetizable structures of low mass, for. B. thin leaf springs, and are held at the switching point by the electrical surges influenced magnetic force of a solenoid directly worn and thereby steered into one of the two paths of the guiding device, in which it has the control effect can exercise.

The following is an embodiment the invention described and shown in the drawings.

In a housing i, which is only partially indicated in Figs. I and 3 is, the axis: 2 is rotatably mounted, on which the drum3 with the known toothed group racks 4 and the drum 5 is attached with the catching means. Between these two Drums 3 and 5 hang immovably on the boom 7 of the housing i the guide disc 6 for the catching means.

The catching means consist of the catch springs 8 and the tracking magnets G. The catch springs 8 are shown in Fig: i on the bottom of the drum 5 by means of the screws io attached. The free end of these catch springs 8 protrudes into the guide disk 6. The tension given to the catch springs 8 by the adjusting screws i i ensures that the free ends of the catch spring are pressed towards the center of the drum, placing them on the lower Ring 12 of the guide disk 6 come to rest and thus, if they are not photoelectric are influenced, get into the lower guide disk channel 13. This lower guide disc channel113 rises in a spiral and finally merges into the upper guide disk channel 16.

Each catch spring 8 is assigned a pair of magnetic shoes g as shown in FIG. The catch springs 8 attach themselves to these magnetic shoes g as soon as they are at their Rundlauf 'have migrated into the upper Leitscheibenkana115. So there is no need magnetic attraction ,. to connect catch springs * and magnetic shoes. Only when the catch springs on their circular walk into the control room 16 of the guide disc 5 advised; If there is no magnetic retention, the inherent one takes care of them Tension for it to snap back onto the innermost guide disk ring 12 will.

At a certain point on the guide disk, .die not shown Compression springs against these driven toothed group racks 4 on the free ends of the catch springs bump. The cranked ends 17 of the tooth group bars are in a circular Channel 18 of the guide disk 6 out. The bottom of this guide trough rises and falls, in such a way that in the vicinity of the control room 16, the rod ends 17 on top of the guide disc 6 slide while in front of the display means, e.g. B. the adding wheels i9 (Fig.3) an arithmetic unit where the channel 18 runs in the outer Fangfederkana115, either against existing catch spring ends or in the absence of these down to the lowest point 2o the channel 18 can encounter (Fig. i).

If a rod end 17 encounters resistance at a catch spring end, then the assigned group of teeth, not shown, of the respective rod 4 for the display means ig (Fig. 2) just ready to intervene. However, if the end of the rod 17 has penetrated to the deepest bottom of the channel 18, the group of teeth remains ineffective on the display means. So if the catch spring ends beyond the control room 16 cannot get into the upper guide disc channel 115 due to magnetic influence, they will always bring the tooth group bars 4 into engagement in the display means.

Because of the helical guidance of the Zahrigruppe rods and from the ends of the catching springs, the rod ends 17 are placed against the catching springs, which are mechanically sensitive because of their low mass, very soft, so that sudden shocking engagement of the groups of teeth in readiness for intervention the known device is completely avoided.

The rerouting of the catch spring ends necessary for locking the tooth group rods 4 in the outer guide disk channel 15 the electromagnet 21, the one with the photocell related. The brands to be evaluated that influence the photocell Cards must pass by the light barrier just at the point in time before the scanning beam, in which one end of the catch spring runs through the switch arm 16 (Fig. 3).

As long as the light of the needle-fine light from the light background of the card The light beam from the light barrier lamp is reflected back into the associated photocell is, the magnet 2 1 is excited. As long as this magnet becomes a pair of magnetic shoes 9 is located under its pole pieces z2, which hold these associated catch spring 8, d. H. through the width of the switch room 16. When the pair of magnetic shoes 9 separates again from the magnet 21 and thus interrupts the magnet current the end of the catch spring has already entered the deflection channel 15.

Device under the scanning beam of the light barrier a dark mark of the Card, the light flow to the photocell is interrupted for a very short period of time, but which is sufficient to interrupt the force of the magnet 21 for this period or at least to weaken it so that the magnetic force field is no longer sufficient, to hold the catch spring on the associated pair of magnetic shoes 9, so that the free Catch spring end snaps down as a result of its own tension and thus in the described Way is passed into the inner channel 13 of the guide disk 6. Any gluing of the Catch springs on the pairs of magnetic shoes 9 after the magnetic action has ceased will in a known manner by plating the pole piece surfaces touching the catch spring with copper or the like; prevented.

With the quick control device described, heavy mechanical means can be engaged and disengaged quickly, gently and reliably a catch spring end can certainly detach itself from its pair of magnetic shoes, jump through the switch room and slip into the inner guide disk channel 13. By extremely shortening the control room height or narrowing the guide ring 1q. and a suitable design of the channel switch 23 (Fig. 3), the change in position of the catch spring ends can be accelerated considerably.

An important prerequisite for the reliable operation of the electromagnet 21 is an appropriate preparation of the arranged between it and the photocell electrical amplification and blocking means described below and on the second sheet of drawings are explained graphically.

As already stated at the beginning, this is the essence of the invention to see that the catch springs are first pressed against the pre-magnetized magnets and by controlling the magnet all that is required is the spring either to hold on or to drop. So there are additional electromagnetic ones Power is saved and the apparatus can work at high speed and to use the given inertia of the photocell mechanically to a large extent.

According to the invention, there is a photoelectric control device for application that switches off the magnet current without inertia. It has been found to be beneficial proved to use an electron tube for this purpose, whose emission by the photoelectric effect is throttled. This way you will find a flawless one Switching off the coil current takes place, and also any interruption current will be completely destroyed.

An example of a circuit according to the invention is shown in Fig. Q .. The electron tube 25, which is fed by the battery 26, contains the coil 27 of the magnet 2r in its anode circuit. The grid 28 is biased negatively via the resistor 29. As soon as the photocell 3o receives light, the grid 28 has a positive potential and a current flows through the magnetic coil 27. which also serves as a holding current for the catch spring that is passing by. As soon as the photocell 30 is darkened, the grid becomes negative and the magnetic current is suddenly switched off. In order to achieve that at approximately the present fluctuating illumination of the photocell 30 and in case of power fluctuations.. May occur like, the energization of the solenoid coil remains constant, an electron valve 31 is provided according to the invention, the o from a Thermoelektronen- or photoelectron route. Etc. can exist. This is biased at the battery 26 in such a way that when the grid becomes positive, its emission only begins when the magnet coil 27 is sufficiently magnetized. If the electron valve has a sufficiently steep characteristic, it is achieved that, with increasing photocurrent, the grid no longer becomes positive, but rather retains the bias voltage that has been taken. The grid thus receives the same voltage even if the lighting of the photocell fluctuates,. and thus the magnetization is kept constant.

In a simpler way one gets an operation between defined Limit values if, according to the invention as shown in Fig. 5, the photocell is arranged in such a way that that when illuminated it gives the grid a negative potential. Receives the Photocell light, so the anode current is reduced as a result. The coil 27 however, gets a magnetizing current from the battery 26 through the resistor 32. If the photocell is darkened, the tube emits, which is the result it is precisely defined that the grid via the resistor 33 has a defined potential receives. This current compensates for the current flowing in via resistor 32 and makes the coil z7 currentless. It is advantageous to set the compensation current somewhat larger to be measured as the magnetizing current, because you then have a weak polarity reversal of the Magnet achieved, which facilitates the detachment of the catch spring.

In the two examples mentioned above, the characteristic is shown in the lower part the electron tubes worked and the emission when lighting or darkening reduced to zero. As mentioned, this results in defined relationships, which one would not reach if one wanted, as usual, in the area of the so-called rectilinear characteristics of the electron tubes remain. It goes without saying it is possible to use power gates instead of the amplifier tubes operates advantageously with direct current and the interruption of which is inevitably carried out the rotating drum 5 brings about; around her for every catch feather, Which happens to make the magnet operational again. . .

Claims (3)

PATENT CLAIMS: i. Control device for converting electrical surges in motion quantities dependent on the time of their transmission, that is to say on a circulating one Control drum control body are adjustably attached to a switching point under the effect of current surges from a control effect ineffective position brought into an effective position or vice versa and in it by a Stationary guide device arranged to the drum up to after exercising the control effect subsequent release to return to the inoperative position at the end of the guide device are held, characterized in that the control bodies (8) are magnetizable Low mass structures, e.g. B. thin leaf springs, and are at the switching point (16) by the magnetic force of a solenoid, which is influenced by the current surges (21) carried directly and thereby in one of the two tracks (13, 15) of the guide device (12, 1q.), In which they can exercise the tax effect. 2. Device according to claim 1, characterized in that the control body (8) per se the ineffective Take up position and fall back into the effective position with the switching magnet (21) or the other way around. 3. Apparatus according to claim i and 2, characterized in that the poles (9) of the switching magnet (2r) at the switching point (16) extend directly to the guide track (15) of the guide device. q .. Device according to claim i to 3, characterized in that both guide tracks (13, 15) of the guide device (12, 1 ¢) merge into only one guide track (15) in front of the switching point (16), so that the control bodies (8 ) regardless of the excitation of the switching magnet (21). come into close proximity to its poles (9). 5. Apparatus according to claim i to 3, characterized in that the poles (22) of the switching magnet (21) extend over the switching point (16) and the beginning (23) of the guide device (14). 6. Apparatus according to claim i and 2, characterized in that the drum (5) for each control body (S) carries magnetizable pole shoes (9) which are magnetized when walking past the poles (22) of the switching magnet (21) and in turn the Hold the control body (8). 7. The device according to claim i, characterized in that in addition to the control drum (5) a toothed body drum (3) with spring-loaded, axially displaceable rods (4) which carry groups of teeth, sits and each a tooth group rod (.4) in line with a control body (8), the guide device (12, 13, 14, 15) also controls the displacement of the tooth group bars in that it has an interruption (18) on which the bars (4) counteract by the tension of their springs the control bodies (8) are pulled and, provided they have not been influenced by the switching magnet (21), prevent the displacement of the tooth group bars (q., 17) in front of them and, if the tooth group bars are not displaced, the tooth groups engage with a display means (19 ) (e.g. adding unit). B. Device according to claim i, in particular for photoelectric scanning as the triggering cause of the current surges to be converted, characterized in that the current surges are passed via an electron tube (25) which is in series with the coil (27) of the switching magnet (21) and connected in this way is that the current surges to be detected move the control grid (28) from positive to negative values, so that the change in the magnet current is limited by the throttling of the anode current of the electron tube (25) and in the control case the effect on all control bodies remains practically the same . 9. Apparatus according to claim 8, characterized in that the rest grid bias of the electron tube (25) is set so negative that the current surges to be detected throttle the emission. i o. Arrangement for devices according to claim i or 8, characterized by an amplifier tube (5) which is in series with the control magnet (27, 21) and is connected in such a way that the emission current varies between constant irrespective of the size of the impulse acting Limit values changes. ii, circuit for arrangements according to claim io, 'characterized by the arrangement of an electron valve (31), the anode of which is connected to the grid (28) of the amplifier tube (25) and the cathode of which is opposite the cathode (28) of the amplifier tube (25) ) is biased in such a way that an emission begins in the electron valve (3i) as soon as the grating (28) of the amplifier tube (25) is shifted towards positive values over a certain amount. 12. Circuit arrangement. for devices according to claim i, characterized in that the control magnet (2i27) carries a second, oppositely flowing current in addition to the anode current of the amplifier tube (25), so that when the anode current changes as a result of the acting pulses, the current of the magnet coil (27) drops to zero sinks. 13. Circuit arrangement according to claim 12, characterized by such a dimensioning of the countercurrent flowing through the coil (27) and the electron tube arrangement that when the pulses occur, the current flowing through the coil (27) not only goes back to zero, but the coil by a certain amount flows through in the opposite direction (polarity reversed).