Abstract:
The alarm control button of the alarm clock with a snooze mechanism is operable in two modes; a lateral sliding mode and a vertical pushing mode. The alarm setting and the permanent stopping of the buzzer are controlled by the sliding mode, while the temporary stopping of the buzzer is controlled by the vertical pushing mode.

Description:
BACKGROUND OF THE INVENTION 
     This invention relates to an alarm setting device of an alarm clock and more particularly relates to an alarm setting and buzzer stopping device of an alarm clock with a snooze mechanism. 
     In the conventional alarm clock of this type, an alarm setting/buzzer stopping button and a snooze button are separately provided. According to this conventional arrangement, the accessibility of one of the buttons is sacrificed as the alarm setting/buzzer stopping button and the snooze button have to be separately positioned. In a small-sized alarm clock it is disadvantageous to share extra space for two buttons. 
     SUMMARY OF THE INVENTION 
     Accordingly, an object of the present invention is to provide a mechanism which is capable of providing both of the functions using a single button. According to the present invention, the object of the invention is attained by an alarm control button which performs alarm setting or permanent buzzer stopping by operating a first switch connected to an alarm control circuit during its lateral sliding movement, and temporary stopping of the alarm device by operating a second switch during its vertical pushing movement. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a perspective view illustrating a first embodiment according to the present invention, 
     FIGS. 2-a and 2-b are sectional views of the first embodiment, 
     FIG. 3 is a diagram of an electric circuit of the present invention, 
     FIG. 4 is a partial perspective view of a second embodiment according to the present invention, 
     FIGS. 5-a and 5-b are sectional views of the second embodiment, 
     FIG. 6 is a plan view of the control button of the second embodiment, 
     FIG. 7 is a plan view of a third embodiment according to the present invention, and 
     FIG. 8 is a sectional view of the third embodiment. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     Referring first to FIGS. 1 to 3, explanation will be made of a first embodiment according to the present invention. A top case 2 and a bottom case 1 are fixed together by screws. A printed circuit board 3 comprising circuit elements as shown in FIG. 3 and an alarm control button 4 are supported in the case. The alarm control button 4 has a groove 4a, a pin 4b and a cam 4c. The groove 4a is engaged with a guide rail 1a formed on the bottom case 1 so that the control button 4 is slidable in the directions of the arrow shown in FIG. 1. The alarm control button 4 is adapted to be swingable about the guide rail 1a of the bottom case as shown in FIG. 2. A first contact plate 5 and a second contact plate 6 are attached to the printed circuit plate 3. The first contact plate 5 has an operating part 5a engageable with the cam 4c of the alarm control button 4, a first contact point 5b arranged to be able to contact with a first pattern 3a of the printed circuit board 3, and a second contact point 5c arranged to be able to contact with the second contact plate 6. The contact part 6a of the contact plate 6 is continuously in contact with the pin 4b of the alarm control button 4 urging the same upward. When the alarm control button 4 is turned counterclockwise as shown by the arrow (FIG. 2(b), the pin 4b bends the contact part 6a of the contact plate 6 so that the second contact plate 6 and the first contact plate 5 come in contact with each other. 
     An alarm control circuit (IC) directly connected to a power source (E) has an alarm input terminal (AI), an alarm output terminal (AO), and a snooze terminal (SN). The first contact plate 5 is connected to the input terminal (AI), while the base of a transistor (Tr) is connected to the output terminal (AO). The collector of the transistor (Tr) is connected to the negative electrode of the power source (E), through a buzzer B while the emitter of the transistor (Tr) is connected to the positive electrode of the power source (E) through a. A third contact plate 8 is connected to the positive electrode of the power source (E). The third contact plate 8 operates at the alarm time detection in the manner well known in the operation of an alarm clock. The third contact plate 8 comes in contact with the first pattern 3a formed on the printed circuit board 3 at alarm time. When the alarm control button 4 is set to the setting position the first contact point 5b of the first contact plate is in contact with the first pattern 3a, therefore, when the third contact plate 8 comes in contact with the first contact pattern 3a with the alarm control button 4 at the setting position, the input terminal (AI) and the output terminal (AO) potential becomes high to actuate the transistor (Tr) so that the buzzer (B) is actuated. The second contact plate 6 is connected to the snooze terminal (SN), therefore, when the alarm control button 4 is turned counterclockwise from the position shown in FIG. 2, the pin 4b of the alarm control button pushes the contact part 6a of the second contact plate 6 to make the second contact plate 6 contact with the first contact plate 5 so that the output of the alarm output terminal (AO) is interrupted, however, this interruption of the output is controlled by a counting circuit included in the alarm control circuit (IC) and the potential of the output terminal (AO) is restored after a fixed period of time, for instance five minutes later, so that the buzzer (B) is actuated again. The upper surface 4d and the side surface 4e of the alarm control button 4 are knurled to facilitate the operation of the alarm control button 4 so that the side surface 4e is used in the alarm setting/permanent stopping operation while the upper surface 4d is used in depressing the alarm control button 4 for the temporary alarm interruption. 
     Referring now to FIGS. 4 to 6 illustrating a second embodiment according to the present invention, explanation will be made of the part of the second embodiment which is different from the first embodiment. 
     Alarm control button 14 is supported between a top case 12 and a bottom case 11 with an extending part 14a guided along a guide rail 11a. The lateral movement of the alarm control button 14 is limited by two pins 12a formed on the top case 12 and engaging with the respective slots 14b formed on the alarm control button 14 (FIG. 4). The pins 12a are loosely fitted in the slots 14b with a suitable space between them to allow counterclockwise swing motion of the alarm control button about the guide rail 11a when the alarm control button 14 is depressed in the direction shown by the arrow (FIG. 5). The rest of the structure being the same as that of the first embodiment, further explanation will be omitted to avoid duplication. 
     Referring to FIGS. 7 and 8 illustrating a third embodiment according to the present invention, explanation will be made of the part of the third embodiment that is different from the first embodiment. 
     The alarm control button 24 is supported between a top case 22 and a bottom case 21 similar to the first embodiment and formed in an arc of a circle in plan. Normally the alarm control button slides along the circular inner surface of the case. The control button 24 has a knurled first operating surface 24a, a second operating surface 24b arranged substantially perpendicularly to the first operating surface 24a and a guiding part 24c extending in the form of an arc of a circle. A click 24d projecting from the guiding part 24c engages with a pin 22a formed on the bottom case 22 when the alarm control button is moved along the circular inner surface of the case to click-stop the alarm control button 24 at fixed positions by the resilient force of the guiding part 24c. A first contact plate 25, a second contact plate 26 and a switch pin 23a are attached to a printed circuit board 23. The first contact plate 25 and the switch pin 23a are connected to the input terminal (AI) and the first pattern 3a of the control circuit of FIG. 3 respectively. The first contact plate 25 is operated by the pin 24e formed on the alarm control button 24 and contacts the switch pin 23a when the alarm control button 24 is turned clockwise, consequently, when the third contact plate 8 shown in the circuit diagram is closed at alarm time, positive potential is applied to the output terminal (AO) of the control circuit so that the buzzer (B) is actuated. The second contact plate 26 connected to the snooze terminal (SN) of the control circuit is in contact with the inner surface of the alarm control button 24 at its end (26a) urging the alarm control button 24 counterclockwise. When the buzzer (B) is actuated in the manner as hereinbefore described and the alarm control button is pushed at the first operating surface 24a, the alarm control button 24 turns clockwise about the click 24d so that the second contact plate also is shifted rightwards and comes in contact with the first contact plate 25. Consequently, the buzzer (B) is temporary stopped as explained with the first embodiment and actuated again after a fixed period of time. 
     It will be obvious from what has been described hereinbefore that according to the present invention, alarm setting, permanent buzzing stopping and temporary buzzing stopping can be controlled by operating a single alarm control button, furthermore, the construction of the present invention is advantageous from the point of view of cost as the number of component parts is reduced and from the point of view of space in the case of small-sized clocks.