DE1673671B1 - ALARM CLOCK WITH DIAL LIGHTING - Google Patents

Description

The invention relates to an alarm clock with a with the help of the storage space and dial lighting that can be switched on and off independently of the signaling device. There are mechanically driven alarm clocks known that have a pressure switch for have the short-term illumination of the dial. This pressure switch is a additional control element, its installation considerable costs and beyond causes considerable difficulties because he is like the stop for the doorbell must be easily accessible and easy to find at night. But there should also be any risk of confusion be excluded in order to avoid accidentally locking the bell. With small alarm clocks, such as travel alarm clocks, and especially with style alarm clocks the functional and yet aesthetically pleasing design and accommodation of the Switch particularly difficult, if not impossible.

In a time switch made known by the German utility model 1810 692, a light bulb used for dial lighting is inserted into a resilient holder and is pressed by the holder into a recess in the front panel, so that the glass body of the light bulb protrudes slightly over the outer surface of the front panel. The resilient holder forms one contact of the circuit fed by a battery, while when the light bulb is in its rest position, its center contact faces a mating contact at a small distance. The bulb can be pushed so far backwards from the outside that its center contact touches the mating contact and thus switches the bulb into the circuit so that it lights up.

While this arrangement may be quite practical for panel clocks, however, it is largely unsuitable for alarm clocks because it is free-standing and relatively light alarm clock would have to be held if the protruding from the front panel Should be depressed. As the lighting is often used by one in bed It should be switched on by a simple one Finger pressure can be done. In addition, small alarm clocks have no space, that Place lamps next to the dial on a faceplate while an arrangement in the dial is not possible because the light interferes with the movement of the pointer and / or when actuated, the dial would be covered by the hand.

It is also known from the German utility model 1802 689 an alarm clock in which a lamp is arranged in the shelf itself, which is automatically switched on by the activated signal transmitter after the alarm is triggered. It then primarily illuminates the storage area so that it can be found more easily for setting down the signal generator. When the signaling device is switched off, the light source built into the storage compartment is also switched off again. This light source is therefore not a real dial lighting, because its light hardly reaches the dial and in particular an arbitrary switching on of the light source to read the time is not possible with the known alarm clock.

In one proposed in the German Auslegeschrift 1548 140 The alarm clock is formed by a pivoting base of the clock case, which is able to assume two different positions in relation to the watch case. When the clock is in the rest position, the stopper is out of action with the signal transmitter and holds that too The circuit for the dial lighting is open. In the second position of the pivotable bottom part, in which the bottom part either by pressing the housing or by lifting the housing from the base is brought, the floor switches on the lighting and locks the drive at the same time. A completely independent operation of the light and of locking and unlocking the signal generator is therefore not possible with this proposed alarm clock.

Finally there are still alarm clocks with synchronous drive powered by the lighting network known, in which a glow lamp is used for dial lighting, the always burns and for which no switch is provided. A switch is not required because the low power consumption of neon lamps does not matter when operated from the mains plays and also does not disturb the weak light of a glow lamp. Using on the other hand, there is only one battery feed due to the relatively low voltage Incandescent lamp as a light source into consideration, the power requirement of a battery drive many times over, so that with continuous lighting the life of the battery to a fraction of the service life of an alarm clock drive only Battery would sink. For these reasons, stand-alone alarm clocks come in only a short-term illumination of the dial is considered for the an easy-to-operate switch is required.

The object of the invention is to overcome the above-mentioned disadvantages of the known Avoid alarm clocks and create a switch arrangement that cuts through has a simple and cheap structure and is easy to use. Farther the switch arrangement should allow for an attractive design of the alarm clock housing and the actuators provide.

This object is achieved according to the invention in that the storage device can be brought into at least three different positions and in one of these positions the Signal transmitter ready for operation, in another position the signal transmitter is blocked and in a third position the dial lighting is switched on.

The invention makes it possible to use an additional actuator to save completely for the dial lighting and thereby the manufacturing costs the alarm clock to decrease. In addition, all difficulties are completely avoided, which was previously caused by the attachment of an additional switch to the watch case was. There are also no restrictions whatsoever with regard to the application of the invention the arrangement of the light bulb and the design of its holder.

In a further embodiment of the invention, in the way of the parking lot Contact springs known from relay technology can be arranged, which is a very cheap one Manufacturing results. The contact springs can be perpendicular or approximately perpendicular to the direction of movement of the section of the shelf that interacts with them extend. In other embodiments, the contact springs can be in lever switches in a manner known per se in or approximately in the direction of movement of the interacting with them Extend section of the storage and at their free ends in the way of this section arranged, with respect to this path have inclined bends. Will in place of a contact spring set uses a microswitch, you get a special one reliable switching device.

In a further embodiment of the invention, the shelf is with provided with a detent with which he is in one or more of its possible positions can be fixed. This measure makes it possible to use the storage compartment more easily Way to train as a permanent switch. Also, this way the storage becomes secured against accidental adjustment. By locking it in the »Bells parked "is when the parker mechanically intervenes in a moving part the alarm clock a preliminary setting, d. H. a shutdown of the alarm clock before reaching of the set wake-up time, possible.

In another embodiment of the invention, the shelf is designed as a three-armed rocker, its located on one side of the axis of rotation Arm can be brought into engagement with the switch contacts and the other two Arms one as a stop and the other to operate a known per se Shutdown of an electrical or mechanical bell is formed. At this Embodiment of the rocker can be one of the three arms, an electrical or mechanical Block mechanical bells by setting the alarm clockwork in a known manner or the alarm hammer blocked. But it can also be operated with the switch of an electric Be coupled to the alarm circuit. Practically any alarm clock mechanism can be used provided with a storage device according to the invention, so that existing production facilities No or hardly any changes have to be made, which means costly production changes are avoidable.

Even when using a push button, a two-armed rocker or A slide can be used to mechanically block bells or electrical bells switch on and off in a simple manner by pressing a contact. Seesaw and Sliders can be very flat and therefore very space-saving and inconspicuous in alarm clock cases install so that the design of the housing of the slide or the rocker does not or not much affected. When switching an electric bell on and off by means of a contact, the spatial position of the bell and slide or rocker is shown to each other, completely freely selectable, as they can only be achieved by easy-to-install lead wires are connected to each other.

In a further embodiment of the invention, through the contact an electrical device, for example a lamp or a radio receiver, switched will. The alarm clock can then be equipped with connections for one or more such devices be provided. It is advantageous to have a fourth position for the shelf in which the electrical device is constantly switched on.

Markings can be used to identify the respective position of the shelf be provided that are colored and / or designed as depressions or elevations can be to determine the position of the shelf by touching in the dark to be able to.

Some embodiments are provided for a better understanding of the invention described below with reference to the drawing. It shows F i g. 1, partly in side view and partly in section, the essentials for the invention Parts of a first embodiment of the invention with one serving as a shelf Seesaw and a mechanical bell, F i g. 2 shows another embodiment of the Invention with a push button serving as a shelf, FIG. 3 a modification the arrangement according to FIG. 1 for an electric bell, F i g. 4 a detail the locking of the rocker according to FIG. 3 and FIG. 5 to 8 further embodiments of the invention in a representation similar to FIG. 1.

In Fig. 1, a part of an alarm clock housing 1, preferably made of plastic, is shown in section, which has a rectangular recess 2 in which a holder 4 rotatable about an axis 3 transverse to the recess is mounted. The shelf is designed as a three-armed rocker and has an inwardly extending arm 5 which rests on a parking lever 6. The parking lever 6 is rotatably mounted at one end about an axis 29 and angled at the other end 9 in the shape of a hook. The angled end 9 of the lever is intended to block an alarm clock gear 10 by engaging in its teeth 18. A leaf spring 7 is attached to the shut-off lever 6, the end of which protrudes beyond the pivot axis 29 of the lever 6 and, when the hook-shaped end 29 of the lever is out of engagement with the alarm gear 10 , rests in the extension of the shut-off lever under pretension against a stop 8 fixed to the housing so that the spring tends to keep the lever out of engagement with the gear wheel. On the alarm clock housing 1 , two leaf springs 13 and 14 are insulated from one another by an insulating piece 12 and attached at one of their ends, each of which has a switching contact 15 and 16 at its other free ends. The contact springs 13 and 14 extend parallel or approximately parallel to the housing surface or to the longitudinal axis of the support 4. In the illustrated middle position of the rocker 4, which corresponds to the position “bell switch on” or “alarm”, an arm 11 of the rocker 4 is located the free end of the contact spring 14 close opposite. The contact spring 13 is supported in the vicinity of the contact 16 on the side facing away from the rocker against a stop 26 fixed to the housing. When the rocker 4 in FIG. 1 clockwise the arm 11 presses the contact 15 against the contact 16 and thus closes a circuit 22, the battery 20 of which feeds a light bulb 21 located in the circuit for the dial illumination. When the rocker is released, it moves counterclockwise under the action of the contact spring 14 back into the central position. By depressing an arm 17 of the rocker 4 opposite the arm 11 , the rocker moves counterclockwise and, via the arm 5, presses the end 9 of the shut-off lever 6 between the teeth 18 of the alarm gear 10 , thereby turning off the bell. The shut-off lever 6 remains under the force of the alarm gear 10 on the end 9 in this position until this force is released, whereupon the return spring 7 brings the shut-off lever 6 back into its starting position. The counterclockwise movement of the rocker 4 is limited by a nose-shaped stop 24 which is attached to the arm 17 and which lies in a recess 25 of the alarm clock housing 1. A movement of the rocker 4 clockwise to the central position cancels the locking of the alarm gear 10 again. If the rocker 4 is in its central position or in the position in which the circuit 22 is closed, an end face 19 is visible on the arm 17, on which a color signal, a symbol or an inscription, for example "alarm" can be attached. For clear identification, the letters or symbols can be recessed or raised, laid out with color or printed in color. In the same way, the outwardly facing side of the arm 11 of the rocker 4 can be provided with a symbol for the lighting, for example a lightbulb or a corresponding label. It is also possible to attach the contact 16 directly to the housing-fixed stop 26 and / or the contact 15 to the rocker 4 without the contact spring 14 and to establish the connection to the contact 15 by a flexible wire or the like .

In order to enable a pre-adjustment in which no force is exerted by the alarm gear 10 on the end 9 of the shut-off lever, the return spring 7, as in FIG. 1 indicated by dashed lines, extended in the direction of the end 9 of the parking lever 6 and provided with a small bend 23, behind which the arm 5 of the rocker 4 can engage when it moves in the counterclockwise direction. In this locking position, the end 9 of the shut-off lever 6 protrudes into the toothing 18 of the alarm clock gear 10 and prevents the bell from running when the alarm time is reached.

F i g. 2 shows a section of an alarm clock housing 31, on the outside of which a sleeve 32 is attached, which serves as a guide for a stop button 34 which is movable in its axial direction and whose end 35 protrudes into the interior of the alarm clock housing. A set-down bracket 36 is mounted on a guide pin 37 so as to be non-rotatably displaceable. The axes of the stop button 34 and the guide pin 37 are perpendicular to one another. One end 39 of the angle bracket 36 is bent in such a way that it can engage in the path of an alarm hammer 40. The other end 41 of the parking bracket is angled at an angle and rests against the end 35 of the parking button 34 under the action of a compression spring 38 attached to the guide pin 37. When the parking button 34 is depressed in the direction of arrow 33, its inner end 35 presses against the inclined surface of the end 41 of the parking bracket 36 and shifts it laterally on the guide pin 37 so that its end 39 enters the path of the alarm hammer 40 . If the shut-off button 34 is moved further in the direction of the arrow, then its inner end 35 closes a microswitch 42 fixed to the housing, the actuating pin 43 of which is hit by the end face of the shut-off button. A lighting circuit, not shown, is connected to the connections 44 and 45 of the microswitch, the lamp of which can be switched on in this way. After releasing the shut-off button 34, the actuating pin 43 moves the shut-off button 34 under the action of the switching spring built into the microswitch 42 somewhat against the direction of the arrow 33, and the lighting circuit is interrupted again. If the bell was in operation when the shut-off button 34 was actuated, the alarm hammer 40 holds the end 39 of the shut-off bracket 36 firmly. If the bell was not in operation when the shut-off button 34 was actuated, then after releasing the shut-off button 34 the compression spring 38 pushes the push button 34 back into its starting position via the inclined end 41 of the shut-off bracket 36.

F i g. 3 also shows a rocker-shaped shelf 54 with an arm 61 which, when the rocker in FIG. 3 clockwise the similar to the embodiment of FIG. 1 attached to the ends of contact springs 63 and 64 contacts 56 and 57 pressed together and thus the lighting circuit 72 closes. Said arm 61 of the rocker 54 carries a bracket 55 which is resilient to the pivot axis of the rocker 54 and which is provided with recesses into which a stop 58 fixed to the housing engages. When the rocker 54 moves in the counterclockwise direction, an arm 53 of the rocker protruding into the interior of the housing extends into the range of motion of the Wagner hammer 65 of an electrical bell 51 and lifts a contact 60 of the Wagner hammer from the counter contact 59 fixed to the housing the bell, whose excitation coil is controlled in a known manner via the contact pair 59, 60.

F i g. 4 shows on an enlarged scale that the resilient bracket 55 of the rocker 54 has a short recess 57 and a recess 56 enlarged in the longitudinal direction for the stop pin 58 fixed to the housing. If the stop pin 58 engages in the recess 57, the rocker is in a position in which its arm 53 blocks the Wagner hammer 65 and switches off the bell. If the stop pin 58 is located in the elongated recess 56, as shown, the rocker 54 assumes its central position under the action of the contact spring 64. The resilient bracket 55 and the stop pin 58 are located in the FIG. 4 position shown. By moving the rocker 54 clockwise, as in the embodiment according to FIG. 1 contacts 56 and 57 closed; the stop pin 58 comes to rest on the housing-side end of the recess 56. When the rocker 54 is released, it is moved back into the center position shown under the spring action of the contact spring 64.

The embodiment according to FIG. 5 has a two-armed rocker 74 mounted in a cutout 72 of the housing 71 with an arm 76 which is in turn provided at the end with a nose-shaped stop 77 which, when the rocker 74 is moved in FIG. 5 in the counterclockwise direction limits the rotary movement so that the rocker surface is flush with the housing surface in the end position. The other arm 75 located on the other side of the pivot axis of the rocker has a semi-cylindrical cam 80 on its inside. Two contact springs 82 and 86 are insulated from one another and from the housing attached to the housing or to the clockwork frame in such a way that they extend approximately in the direction indicated by an arrow 93. From the fixed end of one contact spring 82, a line leads to an electrical alarm device 87 which is connected to an alarm clock contact 88 which is grounded on one side. The alarm clock contact 88 closes as soon as the set alarm time is reached. The fixed end of the other contact spring 86 is connected to one pole of a battery 89 to which a drive or winding mechanism 90 of the clockwork is also connected. The other pole of the battery 89 and the second connection of the clockwork drive 90 are also grounded. On the side of the contact spring 86 facing away from the first contact spring 82 there is a contact 91 which is insulated on the housing and which is connected to a light bulb 92 serving for dial illumination, the second connection of which is to ground. The first contact spring 82 has at its free end to a cam 80 disposed in the path -des and inclined to that path angled portion 81 and a contact 85 which together form a switching contact with the contact spring 86th When the rocker 74 in FIG. 5 clockwise the semi-cylindrical cam 80 presses against the angled end 81 of the contact spring 82 and presses it in the direction of the second contact spring 86, so that the switching contact consisting of the contact 85 and the contact spring 86 is closed. As a result, the signal circuit from the battery 89 via the second contact spring 86, the contact 85, the first contact spring 82, the bell 87, the alarm clock contact 88 and the ground return line is closed as soon as the alarm clock contact 88 closes. When the rocker 74 is depressed further in the direction of the arrow 93, the contact spring 82 and the contact spring 86 are jointly deflected laterally via the angled end 81 so that the contact spring 86 comes to rest on the contact 91 and thus the circuit from the battery 89 via the contact spring 86 , the contact 91, the light bulb 92 and the ground return line closes, whereby the light bulb 92 is switched on and illuminates the dial. When the rocker 74 is released, the contact spring 86 lifts off the contact 91 again. In the in F i g. The position of rocker 74 shown in FIG. 5, the switching contact consisting of contact 85 and contact spring 86 is closed and the rocker is locked in this position. The locking can be achieved either by self-locking abutment of the angled end 81 of the contact spring 82 on the semi-cylindrical cam 80 of the rocker arm 75 or by a device shown in FIG. 5 not shown latching can be achieved, which in F i g. 3 can correspond to locking shown.

F i g. 6 shows an arrangement with a three-armed rocker 104 which has a resilient bracket 98 on an arm 111 which is provided with grooves 97 which form a detent with a pin 112 fixed to the housing. The arm 107 of the rocker 104 opposite the arm 111 carries a third arm 103 which is provided with an inclined surface 102. Contact springs 96 and 101 are insulated from each other and attached to the case on the case or on the clockwork frame: A line leads from the fixed end of the contact spring 96 to the incandescent lamp 116, which is used for dial illumination, the second contact of which is grounded. A battery 109, which is grounded on one side, has its other pole connected to the fixed end of the contact spring 101. In the illustrated end position of the rocker 104 , a contact 105 attached to the contact spring 101 rests on an insulated mating contact 106 fixed to the housing, which is connected to an electrical bell 117 which, on the other hand, is connected to ground via an alarm contact 108 actuated by the clockwork. When the set alarm time is reached, the clockwork closes contact 108, so that the circuit of the chime is closed and it begins to ring.

The bells are switched off by pivoting the rocker 104 in the direction of arrow 113 until the pin 112 fixed to the housing engages in the middle of the notches 97 of the resilient bracket 98 . The inclined surface 102 provided on the rocker arm 103 presses against an angled portion 110 at the free end of the contact spring 101 and lifts the contact 105 from its mating contact 106 , whereby the circuit to the bell 117 is interrupted. With further movement of the rocker 104 in the direction of arrow 113 , the contact spring 101 is deflected further laterally until a contact 94 fastened on the side of the contact spring 101 facing away from the contact 105 comes to rest against a contact 95 which is fastened to the contact spring 96. In this position, the pin 112 engages in the groove 97 provided at the free end of the resilient bracket 98, whereby a permanent illumination of the dial is achieved, since the circuit from the battery 109 via the contact spring 101, the contacts 94 and 95, the contact spring 96 , the light bulb 116 and the ground return line to the battery 109 are closed.

F i g. 7 shows a further exemplary embodiment with a rocker 124, which has a resilient bracket 123 provided with two grooves 133 on an arm 122, the grooves of which cooperate with the housing-fixed pin 134 to form a detent. A second arm 131 opposite the arm 122 carries a projection 127 protruding at right angles, on which, in the position of the rocker shown, a contact spring 125 rests with its free end under pretension. The fixed end of the contact spring 125 , together with the fixed end of a contact spring 126, is insulated from one another and attached to the housing on the housing or on the clockwork frame. The electrical bell 135 is connected to the fixed end of the contact spring 125, the other connection of which is connected to ground via the alarm clock contact 136. The battery 137, which is also grounded on one side, is connected with its other pole to the fixed end of the contact spring 126. By moving the rocker in the direction of arrow 138, the rocker arm 127 in FIG. 7 pivoted counterclockwise, and the contact spring 125 rests with a contact 121 attached to it against the contact spring 126, whereby the circuit from the battery 137 to the bell 135 is closed as soon as the alarm contact 136 closes. This position is fixed by engaging the pin 134 in the detent 133 of the resilient bracket 123, which is removed from the rocker arm 122. With a further movement of the rocker 124 in the direction of the arrow 138 , the rocker arm 127 presses against an angled portion 128 at the free end of the contact spring 126, whereby a contact 129 attached to the contact spring 126 comes into contact with an opposite insulated contact 130 fixed to the housing to which the incandescent lamp 132 serving for dial illumination is connected, the other connection of which is in turn grounded. By closing the switching contact consisting of the contacts 129 and 130, a closed circuit is formed from the battery 137 via the contact spring 126, the contacts 129 and 130 and the light bulb 132 . When the rocker is released, it swivels back into its central rest position, since there is no groove for latching on the resilient bracket 123 in this position and the contact spring 126 presses with its angled 128 against the rocker arm 127. In the in F i g. 7 of the end position of the rocker 124, an end face 139 is also visible, which can have a marking or an inscription, for example "Stop", to indicate that the bell 135 is switched off in this position of the rocker.

In Fig. 8 shows an arrangement suitable for switching another electrical load, for example a radio receiver. A two-armed rocker 144 is rotatably mounted in a section of the housing 141 of the alarm clock and carries a bracket 143 provided with notches 145, 146 and 147 on an arm 142. A detent spring 157 fixed to the housing has an angled portion 158 which, in cooperation with the notches 145, 146 and 147 of the bracket 143, causes the rocker to detent. The rocker arm 167 opposite the arm 142 carries a switching cam 148 on the inside, which can act on a contact spring assembly 149, 150, 151 and 152, carry the contacts 153, 154, 155 and 156 and are isolated from one another and fastened to the housing 141 by means of an insulating block 170 are. The fixed end of the contact spring 149 adjacent to the switching cam 148 is connected to one side of the alarm switch 165 , the other side of which is connected on the one hand to the fixed end of the contact spring 151 and to one pole of a battery 164 that feeds a radio receiver 161 that on the one hand also Ground and on the other hand is conductively connected to the other pole of the battery 164. The fixed end of the contact spring 150 located between the contact springs 151 and 149 is connected to ground. The contact spring 152 located on the side of the contact spring assembly facing away from the switching cam 148 is connected with its fixed end to the incandescent lamp 163 which is used for dial illumination and to an incandescent lamp 162 which is used to illuminate the dial of the radio receiver 161, the other connections of which are connected to one pole of the battery 160 , to which one of the connections of the clockwork drive 166 is also connected. The other pole of the battery 160, like the second connection of the clockwork drive 166, is connected to ground.

If the holder 144 is in the position in which its outer surface is flush with the surface of the housing 141 and the detent spring 157 with its angled portion 158 is located in the notch 145, the switching cam 148 is not in contact with the contact spring 149. The contact springs 149, 150, 151 and 152 are therefore relaxed, the contacts 153, 154, 155 and 156 are open and thus the consumers 162 and 163 are switched off. Likewise, the consumer 161 is always switched off regardless of the switching position of the alarm switch 165. When the shelf 144 moves in the direction of arrow 171 until the angled portion 158 of the detent spring 157 engages in the notch 146, the switching cam 148 bends the contact spring 149 towards the contact spring 150 so that the contacts 153 and 154 touch each other. This middle detent position of the shelf 144 corresponds to the "alarm" position, since the alarm switch 165 , which closes when the set alarm time is reached, establishes a conductive connection from the battery 164 via the contact spring 149, the contacts 153 and 154 and the contact spring 150 to ground Consumer 161 receives electricity. With a further movement of the rocker 144 in the direction of arrow 171 until the angled portion 158 of the detent spring 157 engages in the notch 147, that is to say in the position shown in FIG. 8, the switching cam 148 bends the spring 149 even further, so that the contact 154 of the contact spring 150 also comes into contact with the contact 155 of the contact spring 151 via the contact 153. The alarm switch 165 is thus bridged and the consumer 161 receives current regardless of the position of the alarm switch: In this position of the switch 144 , the consumer 161 is therefore constantly switched on. If the shelf 144 is moved further in the direction of arrow 171, then the angled portion 158 slides out of the detent 147 onto an inclined surface 163 of the bracket 143, and the contact springs 149, 150 and 151 are bent so far that the contact 156 with the Contact 155 comes into contact. This completes the circuit from ground to battery 160 via the two parallel light bulbs 162 and 163, contact spring 152, contacts 156, 155 and 154 and contact spring -150 back to ground. If the holder is released, it moves back under the action of the contact springs 149, 150, 151 and 152 until the angled portion 158 of the detent spring 157 falls back into the notch 147. In this position, the lamps 162 and 163 are de-energized again, since the contact 155 is lifted from its mating contact 156.

Markings can again be attached to an end face 159 of the rocker 144 which, depending on the position of the rocker 144, become visible and the positions of the rocker 144, e.g. B. Display »Wake up«, »Radio«, »Lighting«.

Claims (10)

Claims: 1. Alarm clock with a dial light that can be switched on and off with the help of the storage device and independently of the signal generator, characterized in that the storage device (4) can be brought into at least three different positions and in one of these positions the signal generator is ready for operation in another position the signal transmitter is blocked and the dial lighting is switched on in a third position. 2. alarm clock according to claim 1, characterized in that im Way of the Abstellers (4) contact springs (13,14) are arranged. 3. Alarm clock according to claim 2, characterized in that the contact springs (82, 86) extend in a manner known per se from lever switches in or approximately in the direction of movement of the portion of the storage device (74) cooperating with them and in the way at their free ends this section arranged, with respect to this path have inclined bends (81) . 4. alarm clock according to claim 1 or 2, characterized in that in the way of the depository a microswitch (42) is arranged. 5. Alarm clock according to claim 1, characterized in that the storage device (54) with one or more of its Positions fixing detent (55, 58) is provided. 6. Alarm clock according to claim 2, characterized in that the storage device is designed as a three-armed rocker (4) whose arm (11) located on one side of the axis of rotation (3) can be brought into engagement with the switch contacts (15, 16), while one of the other two arms (5 and 17) is designed as a stop (24) and the other is designed to operate a known shutdown of an electrical or mechanical bell. 7. Alarm clock according to one of the preceding claims, characterized in that that the storage device (4) in a known manner when the bell is turned off Moving part of the bell blocked. B. Alarm clock according to one of the claims 1 to 6 with an electric bell, characterized in that the stop is at turned off bell in a known manner one in the circuit of the bell lying contact (59, 60) keeps open. 9. Alarm clock according to claim 8, characterized in that that they have a connection for an electrical device serving as a wake-up device (161) e.g. B. has a radio receiver. 10. alarm clock according to claim 9, characterized characterized in that a fourth position of the storage is provided in which the electrical device is continuously switched on.