DE29711925U1 - Time switch - Google Patents

Description

WESTPHAL- MUSSGNUG &

PATENT ATTORNEYS· EUROPEAN PATENT ATTORNEYS

juc003

Jauch Sc Schmid Watch and

Apparatefabrik GmbH & Co.

Karlstrasse 90

78054 Villingen-Schwenningen

Timer

The present invention relates to a timer according to the features of the preamble of claim 1.

Such time switches have a rotating dial, which, depending on the design, is controlled by a clockwork and rotates 360° in 24-hour cycles, or weekly or annual cycles. Switching elements are arranged on this dial, which actuate a switch arranged in the area of the dial depending on the angular position of the dial, and thus depending on the time and/or date.

In known time switches, the switch is operated mechanically, i.e. an actuating element of the switch is actuated directly by means of the switching element or via another actuating element when the dial is at the appropriate angle. The switch is used to switch consumers, control circuits or the like connected via an electrical circuit.

The disadvantage of such mechanically operated switches is the fact that very small currents at very small voltages are not always switched safely. The switches are also subject to wear, which in the long term endangers safe switching behavior. Furthermore, the scale disk

D-78048 VS-ViHingen ■ Waldstrasse 33 ■ Telephone 07721 56007 · Fax 07721 55184

to generate sufficient torque to operate the switch using the switching elements, which places special demands on the drive unit of the dial.

The aim of the present invention is to provide a timer that enables safe switching of even the smallest currents, that ensures safe switching behavior over long periods of use, that is simple and inexpensive to manufacture and that, in particular, does not have the disadvantages mentioned above.

This goal is achieved by a timer that has the features of claim 1. According to this, the timer has, in addition to the features mentioned at the beginning, a switch that can be operated without contact. For this purpose, the switch preferably has a sensor that generates a switching signal depending on the presence of a switching element or an actuating element in a detection area associated with the sensor. Depending on this switching signal, electrical consumers or other control units are switched via a connected control circuit.

The switch is switched contactlessly in the time switch according to the invention, which means that no mechanical wear occurs and stable switching behavior is guaranteed even during long-term use. Furthermore, the torque required to rotate the dial can be kept very low, which means that simple and inexpensive drive motors can be used. Furthermore, the clicking noises typical of time switches when the switch is switched on are eliminated, which is particularly advantageous when using time switches in the living room or bedroom.

Advantageous embodiments of the invention are the subject of the subclaims.

Sensors for use in the switch are in particular

Hall sensors or light barriers are suitable, whereby both types of sensors are simple and inexpensive to implement and reliable in their application. Hall sensors react to a change in the magnetic field in their detection area by changing a voltage that can be tapped at the connection terminals. Light barriers also react to a change in the lighting conditions in their detection area by changing a voltage that can be tapped at the output terminals. The voltage that can be tapped at the output terminals can be used in a downstream control unit to switch a consumer. The overall arrangement of sensor and such a control circuit is referred to below as a switch.

The timer preferably has an actuating element which can be actuated by the switching elements and whereby the switch is open or closed depending on the position of the actuating element. When using a Hall sensor in the switch, a special actuating element is required which can cause a change in the magnetic field in the detection area of the Hall sensor. If this actuating element is fixed and can be actuated by means of the switching elements, only such a special actuating element is required instead of one or more specially designed switching elements to cause a change in the magnetic field.

Instead of a Hall sensor or a light barrier, any other known sensors, such as capacitive or inductive proximity switches, can be used that are able to convert the changing position of a switching element or an actuating element into voltage fluctuations of a voltage applied to the output terminals.

Advantageous embodiments of the invention are explained in more detail below with reference to figures. They show:

Figures 1, 3, 5: Embodiments of a timer with Hall

4
Sensor;

Figures 2, 4, 6: Embodiments of a timer with

Photoelectric barrier.

Figure 1 shows a first embodiment of a timer according to the invention in plan view and in cross section. The timer has a support 16 on which a dial 2 is mounted so as to be rotatable about an axis 20. The dial 2 is rotated by means of a clockwork mechanism (not shown here in detail) or by means of a similar time-controlled drive. The dial 2 has a switching element 4 which, in the example shown, runs parallel to the axis of rotation 18 and which moves on a circular path around the axis of rotation 18 when the dial 2 is rotated.

The timer shown also has an actuating element 6 mounted on an underside 62 of the support 16 so as to be rotatable about an axis 62. The actuating element 6 has a magnet 8 and, on a side opposite the magnet 8, an engaging element 64 which protrudes through an opening 164 of the support 16 above an upper surface 166 of the support 16. A Hall sensor 10 with connection terminals 18 is located at a distance from the magnet 8, from which a voltage can be tapped which changes when a magnetic field changes in the area around the Hall sensor 10. The engaging element 64 is located under the scale disk 2 on the circular path traversed by the switching element 4. If the switching element 4 passes over the engaging element 64 on its circular path, the engaging element 64 is pressed downwards in the opening 164, whereby the magnet 8 moves in the direction of the Hall sensor 10 and thus causes a change in the magnetic field in the area of the Hall sensor 10. The voltage change caused at the connection terminals 18 can be used, for example, to switch a consumer using a connected control circuit (not shown in detail here). The switch, which can be operated directly or indirectly by the switching element, essentially consists of

from the Hall sensor and the control circuit. The actuating element 6 preferably has a spring mechanism on the axis 62 in order to bring the actuating element or the engagement element back into the starting position after actuation by the switching element 4.

The timer shown in Figure 2 differs from the timer shown in Figure 1 in the type of sensor used. Instead of a Hall sensor, a light barrier 14 is used here, whereby a change in the lighting conditions in the area of the light barrier 14 causes a change in the voltage that can be tapped at connection terminals 18. The change in the lighting conditions in the example shown is caused by an interruption element 12 attached to the actuating element 6, which moves downwards into the area of the light barrier when the actuating element 6 is actuated by the switching element 4.

Figure 3 shows a further embodiment of a timer according to the invention using a Hall sensor 10. The Hall sensor 10 is arranged on the upper surface 166 of the support 16. The switching element 4', which is magnetic in the present example, causes a change in the magnetic field in the detection area of the Hall sensor 10 when it is swept over the Hall sensor 10 and thus causes a change in the voltage that can be tapped at the output terminals 18 or the creation of a switching pulse. The embodiment shown offers the advantage that an additional actuating element can be dispensed with.

The timer shown in Figure 4 differs from the timer shown in Figure 3 in the type of sensor used, which in Figure 4 is designed as a light barrier. The light barrier 14 is arranged on the upper surface 166 of the support 16, whereby the light barrier is interrupted by means of the switching element 4 and in this way a change in the voltage that can be tapped at the output terminals 18 is caused.

The light barrier preferably consists, as in the other embodiments, of a transmitting element 142, which has, for example, a light-emitting diode, and a receiving element 144, which has, for example, a photoresistor. Depending on the illumination intensity at the photoresistor, the voltage that can be tapped at the output terminals 18 changes.

Figures 5 and 6 show time switches according to the invention with radially arranged switching elements. The time switch in Figure 5 has a Hall sensor 10 arranged in the radial direction away from the dial 2, which is swept by magnetically designed switching elements 4' arranged in the radial direction on the dial to change the magnetic field and thus to generate a switching pulse. The time switch shown in Figure 5 has two switching elements 4', whereby, for example, one switching element serves to switch on a consumer via a control circuit connected to the Hall sensor, while the other switching element serves to switch the consumer off.

Figure 6 shows a timer with radially arranged switching elements 4 and a light barrier 14 as a sensor. Depending on the angular position of the dial 2, the switching elements 4 intervene between the transmitting element 142 and receiving element 144 of the light barrier 14 and thus change the lighting conditions in the area of the light barrier 14, which results in a change in the voltage that can be tapped at the connection terminals 18. As with the timer shown in Figure 5, two or more switching elements could be provided here, each of which switches a consumer on or off. However, as shown in Figure 6, a number of switching elements 4 could also be provided that cover an angular segment of the dial 2, whereby a consumer switched via the output terminal 18 remains on or off as long as the light barrier is interrupted by switching elements 4.

The evaluation of the voltage changes or voltage pulses occurring at the connection terminals 18 can be carried out in all of the embodiments shown by evaluation circuits known per se.

juc003

List of reference symbols

2 Scales 4 Switching element 6 Actuator 8th magnet 10 Hall sensor 12 Interruption element 14 Photoelectric barrier 16 Edition 18 Terminal

2 0 Rotation axis

62 axis 64 Attack element 164 opening 162 lower surface 166 upper surface

Claims (10)

juc003 Protection claims 1. Time switch with a rotatably mounted dial (2) that can be positioned by means of a drive depending on the time and/or date, which has at least one switching element (4) for actuating a switch (10, 18; 14, 18) arranged in the area of the dial, characterized in that the switch (10, 18; 14, 18) can be actuated without contact. 2. Timer according to claim 1, characterized in that the switch has a sensor (10; 14) which generates a switching signal depending on the position of the at least one switching element (4) or an actuating element (6) in relation to a detection area associated with the sensor (10; 14). 3. Timer according to claim 2, characterized in that the sensor (10; 14) is a Hall sensor (10). 4. Timer according to claim 2, characterized in that the sensor (10; 14) is a light barrier (14). 5. Device according to claim 2, characterized in that the sensor (10; 14) is designed as a capacitive proximity switch. 6. Device according to claim 2, characterized in that the sensor (10; 14) is designed as an inductive proximity switch. 7. Timer according to one of the preceding claims, characterized in that it has an actuating element (6) which can be actuated by means of the at least one switching element (4). 8. Timer according to one of the preceding claims, characterized in that the at least one switching element (4) is magnetic. 9. Timer according to one of the preceding claims, characterized in that the at least one switching element (4) is arranged parallel to a rotation axis (20) of the dial (2). 10. Timer according to one of the preceding claims, characterized in that the at least one switching element (4) projects beyond the scale disk (2) in the radial direction.