DE490700C - Touch device for pointer transfer - Google Patents

Description

Sensing device for pointer transmission The invention relates to a tactile device for remote transmission of pointer positions, in which the tactile organ due to its movement in relation to the pointer, no unintentional pressure is exerted on it exercises. In cases where the pointer can be moved very easily due to the nature of the measuring instrument must be, it can easily be moved out of its position by pressing the button on the side be brought, making the ad and the transmission falsified and altogether an uncertainty of the operation is caused. Generally occurs when working together of the feeler element with the pointer -,% stick together like a friction clutch between the two parts that place undesirable stress on these delicate parts Parts.

According to the invention, the tactile organ is soft mechanically with the pointer cooperates, designed as a rapidly oscillating sensor, which by means of its to the pointer plane substantially perpendicular oscillation only a substantially perpendicular. Pressure on the pointer while touching it. can exercise.

The oscillation of the probe can be achieved in a number of ways. For example, at the beginning of the scanning period, for example when passing the start of the scale, Triggered by a cam, the like, so that its oscillation for the time the scanning period is sufficient, or the feeler has a vibrating part that is electromagnetic or by a ratchet uscv. is driven. The pointer can either be compliant be in order to change the position of the electrical contact or some other electrical To produce an effect, or it can be rigid, in which case the feeler itself or a part of it temporarily changes its position.

The invention is illustrated in several embodiments in the drawing. Fig. I shows a pointer Z, movable about an axis x, of a measuring instrument, which moves in front of a scale A to the right and left. The measuring instrument is, for example, an ammeter or voltmeter or the like; however, the pointer Z can also be driven by any other force. Behind the pointer-Z ei current conductors m, n are arranged along the scale nv in such a way that the pointer, when it is pressed down on this conductor, represents a conductive bridge. As a result, a relay R2 from a battery B is energized each time, which is used for remote transmission of the pointer position via the line La, Lb. The pointer Z is pressed down by a vibrating lamella Fi, which belongs to a tactile element F that always revolves around an armpit in the same direction. The latter is rotated by some drive motor through a belt drive in the direction of the arrow. During the rotation of the feeler element F - or only during the time when the same sweeps over the scale - the Lainelle F1 is excited by an electromagnet EM, to which the required current is supplied via slip rings C and slide springs C1.

The operation of the device is as follows. Shortly before reaching of the left end of the scale through the feeler F1 is through one belonging to the tactile organ F. Role e a contact a temporarily closed, the excitation of a relay Ri from the battery B via the normally closed contact 5 of the aforementioned relay R2 Has. The relay R1 responds and bridges the contact at its armature contact z a, so that it is even after opening this. Contact still remains excited. The relay R1 holds the armature contact q during the period of its excitation. open and influenced As a result, a high-frequency transmitter HfS in such a way that a control pointer on the remote receiver is shifted accordingly on a scale.

The excitation of the relay Rl lasts until the tactile organ F reaches the pointer Z. At this moment the pointer contact n, Z, m is established by the vibrating lamella F, as described above, and the relay R2 from the battery B is excited via m, Z, tz. The latter opens its armature contact 5 and thereby switches off the relay R, which is now released by dropping the armature q. brings the high-frequency transmitter H / S to rest. As a result, the influencing of the receiver ceases, whose pointer stops at the point reached, i.e. in correspondence with pointer Z.

The process described is repeated in the same way for everyone Circulation of the feeler element F and at any position of the pointer Z, so that In this way, constant control of the pointer readings on the remote receiver comes about.

Figures 2 to 5 show other embodiments of the invention, in which the vibrating sensor F1 is designed so that it is on the tactile organ F even a contact closes or opens when it is with the pointer Z, which is considered sufficient is rigidly assumed, comes into contact. With this touch, the Resistance of the pointer Z changed the oscillation amplitude of the lamella F1 and thereby a contact is made on the tactile organ itself.

In Fig. 2 the vibrating lamella F1 of the revolving feeler element is the z. B. is driven electromagnetically again, between two circulating Contact springs k1, k2 arranged in such a way that they quickly repeat them through Keeps impulse separated from each other by means of a pin t. The lamella F1 wears on upper end of a cushion p, which when passing the pointer Z with this in contact comes. When this happens, the mechanical resistance of the pointer Z the oscillation amplitude of the lamella F1 is strongly damped. As a result, now lay down the contact springs k1, k2 to each other, whereby they a current, z. B. for a relay, like R2 in Fig. i, close.

Fig.3 shows a modification of Fig.2. Zoo at the swinging lamella Fl the contact springs k1, k2 usually press against one another, on the other hand when reducing the Oscillation amplitude, i.e. when it hits the pointer Z, allows it to separate.

In Fig.q. is on the lamella F1 provided with the pad p directly the contact spring k1 is attached in such a way that a contact is made when the lamella vibrates between this and the contact spring does not arise. When passing the pointer Z - the oscillation range of the lamella becomes due to its counterpressure on the pad reduced, so that now the contact k1, F1 comes about.

Fig. 5 is a modification of Fig. Q. such that when swinging the contact spring k1 the same rests on the lamella F1 and when it hits the pad p on the pointer Z is separated from the lamella F.

Other arrangements are also conceivable. Arrangements according to Fig. q. and 5 are particularly suitable for the case mentioned that the oscillation of the sensor F1 is not constantly entertaining, but only for a certain time at the beginning of the scale will be produced.

In Fig. 3 and 5, the influence of the transmitter H f S (Dept. i) is transmitted by opening the contact instead of closing the contact.

If the pointer Z, as described in Fig. I, is itself a contact organ is used, a special platinum leaf is expediently on its back O. The like. Arranged in order to produce a secure contact between the conductors nz, n. In general, however, it is not necessary to establish contact at all, rather, by changing the logs of the pointer Z or the sensor F1, z. B. a capacitance surface or an induction coil core and the like, a spark electrode, a jet or air valve etc. are moved. For example, the sensor Fi be moved so that it moves the pointer Z in a longitudinal direction instead of in a transverse direction strokes. Furthermore, the invention does not apply to the use of the pre-contact a instructed, but transmission facilities can also be used, which only require a contact or other change of state at the location of the pointer Z.

The arrangement according to Fig. 2 to 5 has the advantage that a training of the pointer is no longer necessary as a contact element and the: delivery of contact tracks behind the pointer is saved. The sensing device can in this Execution in front of any measuring instrument that has only been freed from the glass pane be built in front. It can be made so sensitive that the rigidity of the existing pointer is sufficient. This will make the attachment of another Pointer or a modification of the existing pointer and recalibration of the instrument avoided.

The new sensing device is structurally very simple and has such small dimensions, so that they can be used even with measuring instruments arranged close together, z. B. panel instruments, can be retrofitted without the relevant measuring instrument needs to change its place.

Claims (1)

PATENT CLAIMS: i. Touch device for pointer status transmission, in which the tactile organ moves in a plane parallel to the plane of the pointer executes, characterized in that the tactile organ (F, F1) as a rapidly oscillating Sensor (F1) is formed, which when interacting with the pointer (Z) its position or temporarily changes your own vibrational state and thus one for transmission serving electrical change of state causes. z. Sensing device according to claim i, characterized in that the tactile organ (F, F1) is parallel to the plane of movement of the pointer (Z) moves, on the other hand the oscillation of the tactile organ perpendicular to it Level stands. 3. Touch device according to claim i and z, characterized in that the tactile organ (F, Fi) a set in vibration by electromagnets (EM), with the pointer (Z) has a mechanically interacting part. q .. feeler after Claim i and z, characterized in that part of the feeler element (F, F1) is used as a elastic lamella (F1) is formed, which mechanically before the start of the scanning period (e.g. by pushing at the starting point of the scale) to a level sufficient for the entire scanning period Vibration is set. 5. Sensing device according to claim i to q., Characterized in that that the vibrating part (Fi) of the feeler (F, F1) the flexible pointer (Z) in a contact-making or in some other way effective = - brings situation. 6th Sensing device according to claims i to q., Characterized in that the oscillating Part (F1) of the tactile organ (F, F1) when passing the pointer (Z) due to the counter pressure of the rigid pointer (Z) changes its oscillation amplitude and thereby a change of state of the organ itself.