DE1539888C - Contact device with a vibrating tongue clamped on one side - Google Patents

Description

5. Contact device according to claim 1, there being an electromagnetic oscillating tongue system 45 characterized in that the oscillating tongue (1) knows, in which the resound in the oscillation range the tongue spring (11) are clamped in such a way that a tongue spring is arranged nanzzunge, which wähdaß In their relaxed state, they are part of a full amplitude of the vibrators Lightly touch the support point (13) with the tongue resting against it. A disadvantage of this be contact element (6) from a contact piece (8) 50 known vibrating tongue system is that the vibrating pegs Distance of a few tenths of a millimeter tongue does not work sufficiently bounce-free and precisely having. and the opening time of the contact is greater than that

6. Contact device according to claim 1, there is closing time.

characterized in that the tongue spring (11) The invention is based on the object of a

compared to the spring constant of the 55 contact device with oscillating tongue for periodic

Vibrating tongue (1) very large spring constant open up switch on an electrical vibration

shows. circuit to an AC power distribution network

7. Contact device according to claim 1, for the purpose of generating signals to create the characterized in that for the excitation of largely bounce-free and accurate works and in the Vibrations of the vibrating tongue (1) an electrical 60 the switching contact within a vibrating magnet (12) in the direction of vibration asymmetrical period of the vibrating tongue closed longer than offset against the longitudinal axis of the relaxed opens, with the closing and opening of the Swing tongue (1) is arranged. Switching contact at different instantaneous

8. Contact device according to claim 1 or 7, evaluate the AC mains voltage, preferably close characterized in that the frequency of a 65 is grounded at peaks of opposite polarity Electromagnet (12) should follow exciting alternation.

Stromes a harmonic of the natural frequency to solve this problem is according to the invention

movement number of the vibrating tongue (1). provided that the vibrating tongue from a with

an electrical contact provided spring and is rigidly clamped at one end that this Contact in contact with an opposing contact for at least half an oscillation period and that this contact is within the section between the clamping point and the point of contact between the oscillating tongue and the tongue spring and on the side of the leaf opposite this point of contact the oscillating tongue is arranged.

The main advantage of the device according to the invention is the long closing time of the switching contact, whereby high energy audio frequency pulses can be made available.

Some exemplary embodiments of the device defined here are given below with reference to the drawing described. Show it

F i g. 1 and 2 each have a contact device and

F i g. 3 a circuit diagram.

In FIG. 1, 1 denotes an oscillating tongue which, at a clamping point 2, is inserted into a holding device 3 is clamped and the end 4 opposite the clamping point 2 is a ferromagnetic one Has material existing oscillating mass 5. The vibrating tongue 1 enters near the clamping point 2 Contact element 6, which is attached to a bracket 7 rigidly connected to the holding device 3 Contact piece 8 is opposite. The contact element 6 and the contact piece 8 together form a pushbutton contact 9. A power supply for the contact element 6 of the vibrating tongue 1 is used the clamping point 3 protruding part 10 of the oscillating tongue 1.

In the oscillation range, preferably in the parallel Lying to the plane of the drawing to be thought of the vibration plane of the vibrating tongue 1 is parallel to Oscillating tongue 1, a tongue spring 11 with the holding device 3 firmly connected; its free end part 13 pointing in the direction of an electromagnet 12 lies on the oscillating mass 5 at a support point 13 which is preferably close to the center of gravity the same. The tongue spring 11 is appropriately rounded at the support point 13. the Fixed connection of the tongue spring 11 with the holding device 3 is, for example, by means of a clamping piece 14 manufactured. The oscillating tongue 1 and the tongue spring 11 are advantageously in the holding device 3 clamped in such a way that, in the relaxed state of the two springs, they can easily be attached to the support point 13 touch. The contact element 6 has a defined, as small as possible distance from the contact piece 8. This contact distance is a few tenths of a millimeter, for example 0.2 to 0.3 mm. Especially In certain cases, the oscillating mass 5 can be omitted; the tongue spring 11 is then immediately on the swing tongue 1.

The section of the oscillating tongue 1 lying between the contact element 6 and the clamping point 3 has a slight bias, so that part of the contact element 6 in any position of use the contact device rests against a stop 15 of the holding device 3. One from FIG. 1 Obvious asymmetrically offset arrangement of the electromagnet 11 with respect to the oscillating mass 5 ensures a favorable oscillation behavior of the oscillating tongue 1. Adjustment means, z. B. adjusting screws are provided in order to set the contact distance of the push button contact 9 as desired. As a rule, however, the setting is determined by the manufacturing tolerances and, if necessary, can be corrected by bending the bracket 7 by means of adjusting pliers.

According to the task set out in the introduction, the period of time in which the pushbutton contact 9 is closed, be longer than the period in which he is open. Such behavior, however, stands for the above-mentioned behavior Function of the contact device indispensable measures against that the vibrating tongue 1, for example over part of the contact element 6 with a slight bias on the stop 15 of the holding device 5 is present. This difficulty is now with the design of the contact device described here circumvented by reducing the period of oscillation of the oscillatory system during the half-oscillation, in which the push button contact 9 is open, by the action of the tongue spring 11 on the Oscillating mass 5 is shortened.

The period of oscillation of the oscillatable system of the contact device is set at the one hit Arrangement of two partial amounts together; these are, based on the in FIG. 1 shown neutral position, once a first half period, during which z. B. the tongue spring 11 is effective, then a short section of the second half-period during which the oscillating mass is activated 5 travels a distance corresponding to the contact distance, with the full length of the oscillating tongue 1, that is the spring length from the oscillating mass 5 to the clamping point 2, is effective, and also the remaining part of the second half-period, in which the vibrating tongue 1 practically makes contact 9 swings freely as a clamping point, in which FIG. 1 position shown downwards.

The natural frequency of the oscillatory system results from the reciprocal value of the combined oscillation period. By suitable choice of the spring constants of the oscillating tongue 1 and the tongue spring 11 and by appropriately dimensioning the oscillating mass 5 and the arrangement of the pushbutton contact 9, for example, an oscillation period of a first half-wave of 10 milliseconds (corresponding to 50 Hz) and an oscillation period of the following second half-wave of 30 milliseconds - Set seconds (corresponding to 16 ² / a Hz) so that the total period of oscillation for a full period of an oscillation of the oscillatable system is 40 milliseconds, corresponding to a natural frequency of 25 Hz. This frequency of 25 Hz can be excited by feeding the electromagnet 12 with mains alternating current of 50 Hz. Of course, various other adjustments of the oscillatable system are also conceivable, for example in such a way that the natural frequency of oscillation forms a harmonic to the frequency of the alternating current exciting the electromagnet 12. Preferably, however, the frequency of the alternating current exciting the electromagnet 12 is a harmonic to the natural frequency of vibration of the vibrating tongue 1, that is to say of the vibratory system having the vibrating tongue 1. At a given frequency of the alternating excitation current, a vote on certain low natural frequencies can easily be achieved if the oscillating mass 5 is permanently magnetically polarized. A permanent magnet is used as the oscillating mass 5 in this case.
Since the contact distance of the push button contact 9 only

is very small, this contact is ^{in the closed state for approximately 30 milliseconds, that is 3} A of the entire period of oscillation, in which it changes almost without bouncing due to its low speed. The arrangement of the electromagnet 12 is preferably chosen so that it throws the oscillatable system onto the side with the shorter oscillation period. The excitation frequency and the resonance frequency are, for example, the same on this half-wave, as a result of which very good starting properties are achieved. In FIG. 1, the electromagnet 12 is therefore shown offset in the direction of the tongue spring 11. The friction at the contact point 13 of the tongue spring 11 on the oscillating mass 5 causes weak damping, which ensures that the oscillatable system swings in and out quickly.

A somewhat simplified embodiment of the contact device is shown in FIG. 2, in the same Parts as in FIG. 1 bear the same reference numbers. With this arrangement, the functions of the F i g. 1, the stop 15 described is combined with those of the tongue spring 11.

To shorten the half-period of the corresponding to the open state of the contact 9 The period of oscillation of the oscillatable system is used in the arrangement according to FIG. 2 a bow spring 16, which has a relatively high spring constant compared to the spring constant of the oscillating tongue 1 and which is firmly connected to the holding device 3. The effect of the bow spring 16 is predominantly based on the shortening of the free length of the vibratory system during the duration a half period. In this way, an effect is achieved that is qualitatively similar to that shown in FIG. 1 described is equivalent to.

FIG. 3 provides information about the mentioned use of the new contact device. In the Fig. 3 is again the contact device with oscillating tongue 1, tactile contact 9 and electromagnet 12 to recognize. The push button contact 9 is electrically in series with one of a capacitor 17 and a coil 18 existing electrical oscillating circuit 19 to an AC voltage source, for example to an AC voltage network with a frequency of 50 Hz. To the same AC voltage source the electromagnet 12 is connected via a switch 20. For spark extinction the pushbutton contact 9 is usually connected electrically in parallel with an IC element.

When the switch 20 is closed, the vibrating tongue 1 begins to vibrate, with, as already as Example given, the touch contact 9 for 30 milliseconds per period of oscillation of the contact device is closed. If one sets the time of the contact closure by suitable coordination so that he is always with a z. B. the positive maximum voltage of the 50 Hz AC mains voltage coincides, so the contact is opened precisely at the greatest negative instantaneous value of the mains alternating voltage. If the period of oscillation of the oscillatable system of the contact device is how also given as an example, a total of 40 milliseconds, then the pushbutton contact 9 closes again in the positive mains voltage maximum. Each time the push button contact 9 is closed, the electrical oscillating circuit 19 excited to dampened audio-frequency oscillations, their initial amplitude is proportional to the sum of the instantaneous value of the mains AC voltage at the time of closing of the push button contact 9 and the residual voltage applied to the capacitor 17 at this point in time. This initial amplitude can only reach its maximum possible value when the push button contact closes 9 takes place at a peak value of the AC mains voltage and the capacitor 17 at the same time at least approximately to the peak value of the mains alternating voltage with opposite polarity is charged. These relationships arise when the period of time during which the pushbutton contact 9 is closed, the simple value or an odd multiple of half the period corresponds to the AC mains voltage, as is the case with the contact device described. Through mechanical and possibly electrical tuning by a phase shifter can be achieved that the closing of the push button contact 9 with a voltage maximum of the AC mains voltage in time coincides.

The entire network complex of the alternating current network attenuates the oscillating circuit 19 relatively little, so that its audio frequency oscillations decay only relatively slowly. As a result of the described Contact device achievable long switch-on time or the favorable duty cycle, the is the ratio of the time during which the push button contact 9 is closed to the time, During which this tactile contact is open, most of the energy of the audio frequency oscillations made usable as signal energy. As a result, the contact device described triggers a Task that was previously only possible with much more complicated motor-driven cam switch contacts was manageable.

1 sheet of drawings

Claims (4)

1 2 9. Contact device according to claim 1 or 5, claims: characterized by such a dimensioning of the spring constant of the oscillating tongue (1) and 1. Contact device with a one-sided tongue spring (11) that the natural frequency tensioned vibrating tongue, which on its one of the 5 of the vibrating tongue (1) alone 16'-Va Hz and during the opposite end of the clamping point from its contact with the tongue spring (11) 50 Hz ferromagnetic material existing, im amounts. 10. Contact device according to claims 7 arranged in the force field of an electromagnet Oscillating mass and also a contact element and 9, characterized in that the electrical asks that one with a holding device for io magnet (12) in the direction of the tongue spring (11) the vibrating tongue rigidly connected contact is arranged offset. piece is opposite, wherein in the vibration 11. Contact device according to claim 1 or 3, area of the on a certain self-oscillation characterized by 'that the oscillating tongue number of vibrations coordinated vibrating tongue a magnetically permeable in (1) or the vibrating mass (5) the holding device clamped tongue spring 15 is polarized manent. is arranged, which during part of a 12th contact device according to claim 1 or 7, Oscillation period of the oscillating tongue is applied, characterized in that the EigenenschwindaduTch characterized in that the supply number is a harmonic to the frequency of the Oscillating tongue (1) consisting of an alternating contact that excites the electromagnet (12) with an electrical one (6) provided spring and is at 20 currents. one end is rigidly clamped that this contact 13. Contact device according to claims 1 clock (6) for at least half a to 12, characterized by its use as a period of oscillation with a counter contact (8) switch for periodically switching on an electrical contact and that this Contact the internal oscillating circuit (19) to an alternating voltage of the section between the clamping point (3) 25 voltage network.
and the point of contact between the swing tongue (1) and tongue spring (11) and on the contact point opposite leaf side of the Swing tongue is arranged. . 2. Contact device according to claim 1, the invention relates to a contact device with characterized in that the tongue spring (11) of a vibrating tongue clamped on one side, which is attached to parallel to the oscillating tongue (1) in the end of the tongue opposite the clamping point transmission level is arranged. one made of ferromagnetic material, 3. Contact device according to claim 1, arranged there in the force field of an electromagnet characterized in that the tongue spring (11) 35 carries an oscillating mass and also a contact element, attached to one of the vibrating tongue (1) with a holding device for the vibrating oscillating mass (S), preferably if possible in tongue rigidly connected contact piece opposite-proximity of the center of gravity of the same, lies in the oscillation range of the on one located. certain natural frequency matched 4. Contact device according to claims 1 4 ° oscillating tongue one in the holding device and 3, characterized in that the tongue-tensioned tongue spring is arranged, which during spring (11) on her on the oscillating tongue (1) or part of a period of oscillation of the oscillating element the part lying against the oscillating mass (5) is rounded. has dete edges. 'From U.S. Patent 3,221,120 is already