DE3153602C2 - Dual function switch for snooze control alarm - Google Patents

Abstract

The alarm clock button is operable in a sliding mode and in a pivotal mode. The alarm buzzer of the clock is set or turned off by movement of the alarm control button in the sliding mode, while temporary stopping of the buzzer for a drowse period is effected by moving the alarm control button in the pivotal mode.Sliding of the button closes contacts so that the buzzer is energised by closure of a further contact at the alarm time. Pivoting of the button about an axis parallel to the direction of sliding closes contacts to silence the alarm for a drowse period. The button has a shallow groove, a pin and a cam. A guide rail projects from the case and has a rounded end portion which is received in the groove.The cooperation between the rounded end portion of the guide rail and the groove is such that the alarm control button can be pressed downwardly to enable the alarm button to pivot about the guide rail

Description

The invention relates to an alarm clock with a slide switch according to the preamble of claim 1.

In a known alarm clock of this type (DE-OS 28 51 694) is a protruding part in shape on the slide switch a jack projection and inside the housing a ent speaking projecting part provided. These protruding Parts are used to determine the alarm switch-on position and the alarm shutdown position. When closing the second switch turned on a lighting lamp. Further is the training on which the latch projection engages the inner wall of the housing and does not contribute to Guide the guide piece, which is the necessary one additional guidance through a second opening in the housing, through which it protrudes, experiences.

In other known alarm clocks, where the alarm position and alarm shutdown as well as a switchover to Post alarm with a single adjustable alarm control button can be done (US-PS 32 00 577 and Japanese Disclosure 55 480/79) is considered disadvantageous that a relatively complex mechanical construction he is required. In particular, a ver relatively large number of components required what also leads to correspondingly high manufacturing costs. Except which is a relatively complicated alarm control button required, the construction of which is not readily a Miniaturization enables.

It is therefore an object of the invention to turn on an alarm clock give, also only a single alarm control button for the different settings that are required but a simplified and less expensive to manufacture Has construction and enables miniaturization.

This object is achieved by the subject of Claim 1 solved. Appropriate configurations are Subject of the subclaims.  

According to the invention it is therefore simple Construction by pressing a single alarm control button possible, an alarm setting, an alarm shutdown or switch to post-alarm because the contact piece of the second switch and the locking pins together act to put the alarm control button in a suitable position bring. Furthermore, an alarm clock with such Setup in a relatively simple manner and with ver reduced manufacturing costs. At the order Switching to post-alarm is the alarm control button around Pawl projection pivoted as a base, so that a stable working is possible.

Based on the drawing, the invention is intended to be more specific, for example are explained. Show it:

Fig. 1 a partial section through an embodiment according to the invention,

Fig. 2 is a sectional view taken along line II-II in Fig. 1, Fig. 3 is a circuit diagram of the electrical circuit for the embodiment in Fig. 1,

Fig. 4 is a view corresponding to Figure 1 during the changeover to post-alarm. and

Fig. 5 is a Fig. 1 corresponding representation in the Alarmab circuit.

In the embodiment shown in FIGS. 1 and 2, a housing 1 is provided with a substantially circular cross-sectional shape. The housing 1 consists of an upper housing part 2 and a lower housing part 3 . The housing 1 has an opening 1 a, in which an alarm control button 4 accessible from the outside is arranged. The button 4 consists of an actuating part 5 , which can be actuated from the outside of the housing 1 , and a guide piece 6 , which extends along the inner wall of the housing 1 . As indicated by a double arrow in Fig. 1, the button 4 is slidable ver along the inner wall of the housing 1 . The outwardly exposed surface of the actuating part 5 is provided with a corrugation 5 a. A piece with the inner surface of the button 4 , an actuating pin 5 b is formed. The guide piece 6 extends in a circular arc along the housing 1 . At an end portion of the guide piece 6, a latch projection 6a is formed. On the inner surface of the lower housing part 3 , a circuit board 7 is arranged on which a first contact piece 8 , a second contact piece 9 and a switching pin 10 are arranged. The first contact piece 8 , the second contact piece 9 and the switching pin 10 are connected to a circuit pattern on the printed circuit board 7 . The first contact piece 8 has an inclined surface 8 a, against which the actuating pin 5 b rests elastically. The first contact piece 8 is placed, or by moving the button 4 in contact with the contact pin 10 away from it. The first con tact piece 8 and the switching pin 10 together form a first switch 11 . The second contact piece 9 is arranged closer to the housing 1 than the first contact piece 8 . As is apparent from Fig. 1, the upper end of the second contact piece 9 is located at the upper end of the key 4 on to press the button 4 in an outwardly facing direction. The inner surface of the lower housing part 3 is provided with two locking pins 12 , 13 which have a distance from the wall surface. When the first contact piece 8 abuts on the switching pin 10, the latch projection 6a engages these Einraststiften 12 to. 13 Therefore, the pawl projection serves as a pivot point about which the button can be pivoted, as can be seen better from FIG. 4. This Ver pivot allows that the two contact pieces 8 , 9 can form a second switch 14 . As already mentioned, the first switch 11 and the second switch 14 have three contacts. The engaging on the guide piece 6 locking pins 12 , 13 serve as a device for positioning the button 4th As can be seen from Fig. 1, the two-sided positions of the button 4 are determined by the second contact piece 9 and the locking pins 12 , 13 . As can be seen further from Fig. 1, a recess 3 is a relative to the A latch pins 12, 13 provided on the lower housing part 3, so that the guide member 6 is elastically deformable.

In the following, the alarm circuit in Fig. 3 will be explained in more detail. An integrated circuit IC contains an input connection AI, an output connection AO and a post-alarm connection SN. When the input terminal AI is at a high potential, an alarm signal occurs at the output terminal AO. When the post-alarm terminal SN receives an input signal, the output signal of the output terminal AO is interrupted for a period determined by a counting circuit. After a predetermined period of time, the alarm signal occurs again at the output connection AO. The first switch 11 is connected to the input terminal AI. A switch 15 for detecting the alarm time is connected to the positive pole of a voltage source E. The base of a transistor Tr is connected to the output terminal AO, while the emitter of the transistor is connected via a buzzer B to the positive pole of the voltage source E. The collector of the transistor Tr is connected to the negative pole of the voltage source E. The second switch 14 is connected to the contact piece 9 with the post-alarm connection SN. A crystal oscillator Q is used to generate drive pulses for a motor M. A trimmer capacitor C _T and capacitors C ₁ and C _{2 are} connected to the oscillator circuit. The mode of operation will be explained in more detail below. When setting the alarm, button 4 is shifted upwards in FIG. 1. In the position shown in FIG. 1, the first contact piece 8 comes into contact with the switching pin 10 in order to close the first switch 11 . The latch projection 6 a is then in engagement with the locking pins 12 , 13 . At the time of the alarm, the alarm switch 15 is closed and the input connection AI then reaches the high potential. The alarm signal at the output connection AO causes the transistor Tr to cause the buzzer B to generate an alarm tone.

In the event of a post-alarm, button 4 in Fig. 1 is pushed to the right. As shown in Fig. 4, then the button 4 rotates around the serving as pivot Klinkenvor jump 6 a, against the spring force of the second contact piece 9th

The contact piece 9 then comes into contact with the first contact piece 8 , so that the second switch 14 is closed. Thereafter, the output signal of the connection AO is interrupted for a predetermined period of time, for example five minutes, with the aid of the counter circuit. After this period, the alarm signal appears again at the output connection AO.

To turn off the alarm, the button 4 in Fig. 1 is moved down. The pawl projection 6 a passes over the locking pin 13 , so that the guide piece 6 is elastically deformed. As shown in FIG. 5, the button slides along the second contact piece 9 and between the two locking pins 12 , 13 . The inclined surface 8 a of the first contact piece 8 is pushed away by the actuating pin 5 b, so that a separation from the switching pin 10 follows. As a result, the first switch 11 is opened so that the alarm tone of the buzzer B is interrupted.

Claims (3)

1. Alarm clock with a slide switch for switching on and switching off the alarm circuit, in which the slide switch protruding through an opening in the housing is guided by means of a guide piece along the inner wall of the housing and by moving a first switch for alarm on / off. Shutdown actuated and a second switch can be closed by pushing in against a spring force, a design being provided in the housing, on which a latch projection engages on the guide piece of the slide switch in its alarm switch-on position, characterized in that the design on the housing ( 1 ) , on which the Klinkenvor jump engages, consists of two locking pins ( 12 , 13 ), which together with the inner surface of the housing serve to guide the guide piece ( 6 ), and that by closing the second switch ( 14 ) is switched to post-alarm. 2. Alarm clock according to claim 1, characterized in that the slide switch ( 4 ) about the pawl projection ( 6 a) is pivotable as a pivot point. 3. Alarm clock according to claim 1 or 2, characterized in that the two switches ( 11 , 14 ) are formed by three contacts ( 8 , 9 , 10 ), of which the first one, two switches common, movable contact piece ( 8 ), which together with the second contact piece ( 10 ) forms the first switch ( 11 ) and together with the third movable contact piece ( 9 ) forms the second switch ( 14 ).