DE1060747B - Clock with self-regulating electro-acoustic display - Google Patents

Description

Clock with self-regulating electro-acoustic display Die The invention relates to clocks, in particular alarm clocks, with electromechanical-acoustic Display (alarm clock), whereby this during the display process in the volume and / or is automatically regulated in the duration of the acoustic signal. This precaution primarily has the purpose of using a comparatively quiet and possibly short-term Starting to wake up the sound so that other people are not disturbed and the does not startle sleepers to be awakened. Only when this does not wake up and the alarm clock does not turn off, the signal swells up to its full volume to become a continuous tone on, whereby this swelling can still be temporarily interrupted.

There are already mechanical alarm clocks known in which one of the Movement outgoing control determines the time or volume of the wake-up process. Another type of mechanical alarm clock receives this control from the expiring mechanical alarm mechanism itself. All these already known mechanical controls are relatively cumbersome and designed specifically only for mechanical alarm devices to use. They «-earth all at least indirectly from the rotating movement that is taking place the walking or alarm clockwork with its relatively large available torques controlled. Basically, the oscillating one required to generate the sound is used Movement (e.g. clapper) converted from a rotary movement.

With electrically powered alarm clocks, especially those with a synchronous motor as a clockwork drive, these relatively high torques are available not available. There are often with such electric alarm clocks Electroacoustic signal generators that oscillate at the mains frequency (e.g. electric horn, electric buzzers, electric chimes, loudspeakers) are used.

It is also known that the motor field of the motor for the gear drive electric alarm clocks at the same time as an anchor field for the electric alarm device (e.g. snare) is used.

It is also known to use NTC resistors as delay elements, z. B. to delay the response time of relays and other switching devices.

The invention relates to a clock with electromechanical-acoustic Signal generator, according to the invention, the volume and / or the duration of the acoustic Signal is regulated in a manner known per se from mechanical alarm clocks and the regulation by switching on one or more semiconductor resistors with a negative temperature coefficient (so-called NTC resistors) in the circuit the signal transmitter coil or by occasionally approaching the signal transmitter armature of different sizes to his field.

So there are switched to the signal transmitter coil NTC resistors that the current in the coil and thus the volume according to its characteristics of the signal or is controlled by the proximity of the signal transmitter armature of different sizes to his field this and thus the excitation of the anchor itself and thus in turn changed the volume.

Due to this precaution, it is possible to use the acoustic signal to regulate continuously in certain periods of time from zero to the maximum. Farther it is possible to continuously increase and decrease the signal volume with in wide Adjustable frequency limits. In a further development of the invention can the signal generator current and thus the signal in predetermined time intervals z. B. interrupted by a contact wheel, contact roller or bimetal contact device will. This can be done both with constant current, i. H. constant volume than also happen in connection with the automatic current control, so that last End differently by combining the basic possibilities described above Loud acoustic signals in equal or different periods of time result.

The devices mentioned are distinguished from those already known mechanical precautions in that they are simple, reliable and cheap and that, above all, the regulation takes place continuously. In practice you will preferably use the following two types of regulation. 1. The Current through the signal transmitter coil and thus the volume of the signal is pure electrically by means of a single NTC resistor continuously from -zero to regulated to the maximum.

2. The volume of the signal is electromechanical by approximation of the signal transmitter anchor to its field continuously from practically zero to the maximum regulated.

It is also possible in a very simple manner, in case l by means of a Switch and a constant resistance and in case 2 by means of a lock of the armature to set the signaling device so that it is only "loud" or only "quiet" sounds.

Some possible embodiments of the invention and some details are described below as exemplary embodiments and shown in the drawing, further features of the invention result. All of them are shown in the pictures Parts not necessary for understanding have been omitted.

Figs. 1 to 5 show the circuit diagrams of a signal transmitter, whereby in Fig. 1 VR is the NTC resistor connected in series with the signal transmitter coil L. After being switched on, this causes the current in the coil to increase according to its characteristics and thus the signal to swell from zero to the maximum, if necessary at predetermined time intervals, according to the contact of the possibly upstream contactor K described in more detail in connection with Fig. 5.

In Fig. 2 the NTC resistor VR is parallel to the coil L of the signal generator switched and therefore weakens accordingly after switching on by current transfer its characteristic is the current in the coil I_. This increases the signal volume weakened from a maximum to a minimum or practically to zero, if necessary at predetermined time intervals, depending on the contact made by the under certain circumstances upstream contactor k. The constant resistance 1 'is used to limit the current.

In Fig. 3, an NTC resistor V R1 is parallel to the coil L of the signal generator and an NTC resistor VR connected in series for this arrangement. laugh at that Switching on increases the current and thus the signal volume to a maximum and then drops to a minimum, corresponding to the characteristics of the two NTC resistors. The time intervals can again be regulated by means of the contactor K.

In Fig. -1 there is an NTC resistor VR, in series with the coil L of the signal transmitter and a further NTC resistor VR for this arrangement. connected in parallel. Of the constant resistance 1 "is used to limit the current. The current through the coil L and so that the signal volume rises to a certain level after switching on Value and then oscillates between a maximum and a minimum to gradually assume a practically constant value according to the characteristics of NTC resistance. The time intervals can again be determined by means of the contactor K regulated «earth.

In Fig. 5, the current through the coil L and thus the volume remains constant. The signal intervals are determined according to the contact made by the contact wheel hR regulated. This is done by means of a mechanical device via the gear Z put into operation with the drive in the event of a signal. The contact wheel switches accordingly its rotation time and the number of applied contact pieces and their lengths in and out. Instead of this contact wheel z. B. also a contact roller or bimetal contact device be used.

Fig. 6 shows a schematic arrangement of a signal transmitter armature and a carriage drive with a common field. B is the anchor of the drive field F and at the same time the signal transmitter. S is the field coil for the walking gear motor with the rotor R and the associated iron core E. P is a compression spring. According to the invention, the volume can be regulated by an eccentric disk N, which is driven by the drive and, in the event of a signal, is coupled to it. @ 7or-specific signal time intervals can be given by a cam disc, the cams of which are designed eccentrically, in the volume of sliding signal time intervals. In all of these three cases described, this is achieved by the distance A from the armature B to the field F set by the cam or eccentric disk N.

Claims (9)

PATENT CLAIMS: 1st clock with electromechanical-acoustic signal system, in particular alarm clock, characterized in that the volume and / or the Duration of the acoustic signal in itself known from mechanical alarm clocks Way is automatically regulated, and the regulation by switching on NTC resistors (VR) in the circuit of the signal transmitter coil (L) or through different sizes at times The signaling armature (B) approaches its field (F). 2. Arrangement according to Claim 1, characterized in that the volume control by means of one of the Signal transmitter coil (L) upstream NTC resistor (VR) happens. 3. Arrangement according to claim 1, characterized in that the volume control by means of a the signal transmitter coil (L) parallel-connected NTC resistor (1'R) happens. 4. Arrangement according to claim 1, characterized in that the volume control by means of an NTC resistor (VR,) connected in parallel to the signal transmitter coil (L) and to this arrangement in series connected second NTC resistor (VR2) happens. 5. Arrangement according to claim 1, characterized in that the volume control by means of an NTC resistor (VR,) connected in series to the signal transmitter coil (L) and a second NTC resistor (VR.) connected in parallel to this arrangement occurs. 6. Arrangement according to claim 1 to 5, characterized in that the current flows through the signal transmitter coil (L) and thus the duration of the signal is interrupted, the individual time intervals can be of different lengths and this by means of a Drive driven contactor (KR) happens. i. Arrangement according to claim 1, characterized in that the volume control by a gradual approximation of the signal transmitter armature to its field happens through a cam. Ä. arrangement according to claim 1, characterized in that the duration of the signals by a Temporary approach of the signal transmitter armature to its field by means of a cam disk happens. 9. Arrangement according to claim 1, characterized in that the duration of the signals and their volume is done by a differently large temporary approach of the signal transmitter armature to its field by an eccentric cam disk. Considered publications: German Patent Nos. 491 850, 942 977, 946 218; Ii retzmann, Funktechnik, No. 15/1951, in particular p. 420, right column, paragraph 3; Swiss patent specification No. 185 719.