DE1548093B2 - Battery operated alarm clock with test device for the battery - Google Patents

Description

The invention relates to a battery-operated alarm clock with an electrical alarm device, which is preferably is transistorized.

Due to their small size, transistorized watches gained a significant market share in the competition with usual AC clocks, although the latter are known for their accuracy and maintenance-free. One reason for this is in it too see that because of the low current drain on the battery, this in transistorized clocks a Has a service life of one year or more, but the accuracy of such a watch is retained. In the case of transistorized alarm clocks However, difficulties in the power supply of the buzzer od. Like. Since its power consumption is considerable is, as a result, it greatly shortens the life of the battery and also has no predictions about it the operating time can be made with a single battery.

The invention now lies. the underlying task of creating a battery-operated alarm clock that is just as reliable as the well-known alternating current alarm clock. This task is done with an alarm clock according to the invention of the type mentioned at the outset, in that a test circuit is provided, according to the invention which is connected to the battery with a test circuit provided with a signal element, its electrical Total resistance is either greater or less than that of the alarm device. With a With such a test device, the state of charge of the battery can be checked easily at any time, because then it can be determined quickly and reliably whether the terminal voltage or the output Amperage is still sufficient for an operation of the alarm clock over a certain time interval.

In alarm clocks with a parking device that has a manually operated actuator for the alarm device has, the state of charge of the battery can be checked automatically in a simple manner then run if, according to a further feature of the invention, the test switch with the actuator is coupled so that an automatic control takes place each time the parking device is actuated.

Further features representing advantageous developments of the invention emerge from the Claims in conjunction with the following description, which the explanation of some in the Drawing of illustrated embodiments of the invention is used; it shows

F i g. 1 is a circuit diagram of a first test device,

Fig. La and Ib two consecutive positions an actuator,

F i g. 2 another embodiment of a circuit for the test device,

2a and 2b show two successive positions of the actuator of the test device according to Fig. 2,

F i g. 3 a perspective partial representation of an alarm clock according to the invention,

F i g. 4, 4a and 4b successive positions of the actuator of the embodiment according to Fig. 3, in Fig. 4 its "off" position, in Fig. 4 a its middle or test position and in Fig. 4b assumes its "on" position,

F i g. 5 is a plan view of a locking device for the actuator and

F i g. 6 is a side view of the FIG. 3 parts shown, with a release lever its on position occupies.

In the case of the FIG. The exemplary embodiment of a test circuit 10 illustrated in FIG. 1 is a clockwork mechanism 11 with leads 12 and 13 connected to a small battery 15. The clockwork can be act one of the known, transistorized clockworks with built-in alarm switch 16, the over a suitable mechanical connection 17 so with

ίο the actual clockwork is connected that it is normally is open but will automatically close when the watch shows the time on which an alarm hand has been previously set. If the alarm switch 16 is closed, there is a buzzer 20 bad Like. With leads 21 and 22 on the battery, which also drives the clockwork.

So that the buzzer can be switched on and off in such a way that it can be activated by closing the alarm switch 16 activated and switched off independently of this is a control switch

25 with one fixed and one moving contact

26 and 27 are connected between the alarm clock switch 16 and the buzzer 20. To operate this control switch is the movable contact 27 via a switching shaft 31 with a manually operated Button 30 connected. When the buzzer is not needed, the button 30 need only be pulled out that far until it comes to its shutdown position, whereby the control switch 25 is opened, so that the buzzer remains inoperative even when the alarm switch 16 is closed. Should the buzzer but are set in motion by the clockwork, the button 30 is pushed into its on position, in which the control switch 25 is closed and the alarm switch 16 at the preselected time Buzzer 20 can start.

According to the invention, a test circuit with a test switch is provided, with the help of which the battery can be briefly connected to the alarm device, so by a short sound signal shows whether the battery is not yet discharged to the point where you can no longer operate the buzzer can. If the test switch is now coupled to the actuator of the parking device, the test switch becomes briefly closed when the actuator moves from its "off" position to its "on" position will. No special handling is required to check the battery. In Fig. 1 is a Test switch denoted by 40, which has a first movable contact 41 and a second movable Has contact 42, which are both closed in the middle position of the button 30. The first contact connects the grounded end of the battery to the buzzer 20, while the second contact 42 has one Shunt resistor 43 connects to the grounded end of the battery so that it is in parallel with the buzzer 20 is and the battery is drawn from a higher current than in standalone operation of the buzzer normally. If the battery is still able to use the Shunt resistor 43 to operate the buzzer, it can be assumed that they have the buzzer alone can still operate some time later when the alarm switch 16 from the clockwork 11 is closed. If now the in F i g. 1 a position shown by the switch shaft 31 is passed through, so the buzzer emits a short signal, which is sufficient, however, for an operator to be able to

3 4

display the battery capacity. Then the button is turned out to be zinc batteries; these batteries have in

30 moves on until his transistorized clocks shown in Fig.

The setting takes more than a year through the control switch, whereas the

25 a direct connection between the alarm buzzer or the like of a battery-operated alarm clock

switch 16 and the buzzer is made. 5 of the usual type, this service life depends on the

If desired, a run through of the average of how often the alarm device is used can be performed on

This means that the position of the switchboard is practically three to four months shorter. This means that

that the battery of a transistorized alarm clock is normal for the end positions of the switching

Shank notches are provided, for example sometimes replaced several times a year

in that a locking head 45 must be OK with the switch shaft because they no longer operate the buzzer

is connected, which can have two notches with a. If a test device according to the invention is now

the detent spring 46 cooperates. used, the inability of the battery to

In the embodiment described above to operate the buzzer, due to the lack of the

a higher current is drawn from the battery; it check signal timely so that the alarm clock

however, it is also possible that the battery is never inoperable as a result.

check that the buzzer is being used during testing. This is the case in FIG. 2 switch the buzzer relatively high. So that the embodiment of a test circuit 50 is the case, the battery now has a transistorized clockwork 51 until it is completely discharged, which can operate the buzzer and leads to the required test signal during a test by means of two leads 52 and 53 to a battery it is purpose-55 connected. An alarm clock switch 56 is moderately to switch in parallel with the battery a capacitor 90 by means of a mechanical connection 57 with the low power dissipation, which couples a Kapa clockwork so that it has a preselected rate of a few microfarads. In this way time is closed and a two supply lines 61 »5 can extend the life of the battery by further and 62 having buzzer 60 in operation. Weeks or months can be extended.
To completely switch the buzzer on and off. An additional advantage of the invented control switch 65 with contacts 66 and 67 according to the test device can be seen in it, and a switch provided with a button 70 - that the precautionary test also shows whether the battery 71. In Fig. 2 the switch shaft is still in a position to operate the electric clockwork in the "off" position in which the control switch 65 returns to the desired accuracy; approaching pulled and the alarm switch 56 is disabled. This is because the battery is at the end of its life Button 70 from its 35 leads to a considerable reduction in the accuracy? Off "- into its" On "position briefly closed. The test procedure described, according to the invention; In addition, the test circuit has a series direction but is extremely sensitive to resistance 83, so that for operation of the buzzer such a voltage drop or a smaller increase in the internal resistance of the battery than the series resistance at this, so that when voltage is present, than this is usually the case. 40 clocks with a test device according to the invention The test circuit leads from the battery via the con - the disadvantages listed are avoided
clocks 81 and 82 of the test switch and the series The means for closing the mers. In the middle position of the switching shaft 71 alarm switch at the specified time only schetna- (Fig. 2a) falls, therefore, an additional 45 table specified at the series resistance. A preferred embodiment off a small voltage. If now the sum of these means show the F i g. 3 to 6. In F i g. 3 sounds despite the series resistance, a circuit board 90 'can be shown on which it can be assumed by means of a that the charge status of the battery hour shaft 92 is coupled with an hour hand 93, the buzzer a few hours later a pelted hour wheel 91 is mounted. To operate the hour wheel, provided that the alarm switch 56 is closed 50 is in sen by a gear train (not shown) and the switch shaft 71 is rotated once with the knob 70 for 12 hours. Assumes its "on" position shown in FIG. 2b with the help of the usual. 12: 1 ratio, which is also not shown,

It has been found that a minute hand 94 is driven even a very small amount. The hourly increase in the current drawn from the battery wheel 91 is adjacent to an adjustable alarm setting wheel or lowering the voltage tapped at it 55 95, which is sufficient via an alarm pointer shaft 96 to check it in the desired manner. Alarm hand 97 is connected. The reason for this lies in the low electrical setting of the alarm setting wheel 95. An alarm clock energy is used for the clockwork itself between the setting pinion 98, which can be rotated with the aid of an alarm setting button at the time of the test and that point in time 99. When the preset is reached, in which the buzzer corresponding to the 60 selected time, the hour wheel 91 is set in motion by the clockwork during the invented time preselection. The construction according to the invention perpendicular to the alarm clock consequently shows the precautionary adjusting wheel according to the invention displaced; For this purpose, when testing the battery, there is a dangerous discharge shown on the hour wheel and it only occurs when the battery is almost completely discharged on the alarm setting wheel, cams 101 and 102, so that it is as far as possible When they run into each other, the hour wheel is possibly exploited. Move perpendicular to the board 90 '.

The invention has proven to be particularly useful when it comes to shifting the hour wheel

Appropriate test when using carbon a release lever 110, which is around a hinge 111

is pivotable and has a feeler 112 sliding on the surface of the hour wheel 91. He is biased clockwise with the aid of a spring 113 (Fig. 3). The temporary locking of the Release lever against the action of the spring force is a stop 115, which is in the pivoting range of the The release lever.

In this embodiment, the alarm switch 56 a has the shape of two contact wires 121 and 122 which are attached to an insulating support 123; the contact wire 122 is in the way of a tongue 124 which is attached to the edge of the trip lever. When the preselected time has now been reached, the cam 101 of the hour wheel 91 slides onto the cam 102, so that the sensor 112 of the release lever is displaced perpendicular to the board and as a result the release lever is released from the stop lever 115 and, as a result of the spring tension of the spring, is 3 113 rotates clockwise. The tongue 124 presses the contact wire 122 ao against the contact wire 121 and thus closes a circuit with the aid of the alarm switch 56a (FIG. 6).

In order to be able to lock the release lever 110 in its inoperative position by hand, has a switching shaft 31a has a cone 130, which against as a sensing edge 131 rests on one side of an opening in the release lever. Successive positions of the switching shaft 31a are shown in FIGS. 4, 4a and 4b. The Fig.4 shows the Schaltschaft31a im Intervention in the release lever so that it is not only locked but also does not move and consequently cannot trigger the alarm device either. The switch shaft is temporarily in its "off" position locked by a detent spring 135, which is in a circumferential groove 136 of the switch shaft intervenes. As the F i g. 5 shows, the detent spring 135 is anchored at its ends so that it is at a Can deflect axial movement of the switch shaft in its central area. When pulling the switch shaft to switch on the operational readiness of the alarm device, it first goes through an in 4a shown middle position and then arrives in its "on" position according to FIG. 4b, in which the Cone 130 is withdrawn from the release lever, so that this rotate and the alarm switch 56 a to pre-selected time can close. There is also one for the "on" position of the switch shaft Latch is provided in the form of a circumferential groove 137 into which the latching spring 135 can engage.

According to the invention, the switching shaft briefly closes a discharge circuit for the battery when it passes through its central position. For this purpose, a test switch in the form of a movable contact 81a, which corresponds to the contact 81 in FIG. 2 corresponds, and a second, fixed contact 82 a, which is designed as a short leaf spring and corresponds to the contact 82 in Fig. 2, is provided. The movable contact 81a is expediently designed as a flange that is integral with the switch shaft, so that it is automatically connected to ground with the circuit board. In series with the fixed contact 82a is a resistor 83a which is connected to a buzzer 60a connected on one side to a battery 55a; the other pole of the battery has been grounded. Of the two contacts of the alarm clock switch 56a, the contact wire 121 is directly connected to the buzzer 60 α, whereas the other contact wire 122 is connected to ground.

In operation, the switch shaft 31a pressed in so that its cone 130 returns the release lever 110 behind the stop 115. With With the help of the alarm clock setting button 99, the alarm clock setting wheel 95 is rotated until the alarm clock pointer 97 shows the desired time. Then the switch shaft 31 α from its "exhibition according to FIG. 4 b pulled out in the direction of its "on" position, so that it is in its middle position shown in FIG passes through, in which the movable contact 81 a briefly touches the fixed contact 82 a, so that the Buzzer 60 a is placed for this short time across the resistor 83 a to the battery; is this still not discharged too far, the buzzer will emit the required test signal.

If the hour wheel 91 has turned so far that the hand mechanism shows the preselected time, so the cams 101 and 102 raise the hour wheel 91 and thus the one according to FIG. 6 left end of the release lever so that it comes free of its stop 115 and is pivoted by the spring 113 and thereby presses the contact wire 122 against the contact wire 121 so that the buzzer sounds.

To turn off the buzzer, the switch shaft 31a is pressed in so that the cone 130 against the Scanning edge 131 is applied and the release lever 110 is pivoted counterclockwise so far that it again engages behind the stop 115 and the contact wire 122 lifts off the contact wire 121 so that the buzzer circuit is interrupted.

One of the differences between the exemplary embodiments according to FIGS. 1 and 2 as well as 3 to 6 in the fact that in the case of the latter, getting ready or shutdown of the circuit for the alarm device caused by mechanical means is, since when the switch shaft 31a is pressed in, the cone 130 engages in the release lever 110 and it is locked so that it cannot react when the hour lever is lifted. In contrast for this purpose, the shutdown takes place in the exemplary embodiment according to FIGS. 1 and 2 by a control switch, which is connected in series with the alarm clock and in the "off" position of the switch shaft is open.

Claims (7)

Patent claims: 1. Battery operated alarm clock with electrical alarm device, characterized in that that a test circuit (10; 50) is provided, according to which the battery with a Signal element (20; 60) provided test circuit is connected, its total electrical resistance is either larger or smaller than that of the alarm device. 2. Alarm clock according to claim 1, characterized in that the test switch with the by hand operable actuator (31; 71) for the alarm device is coupled. 3. Alarm clock according to claim 2, characterized in that the test switch in an between the "on" and "off" positions of the actuator are closed. 4. Alarm clock according to one or more of the preceding claims, characterized in that that the signal element is the alarm device. 5. Alarm clock according to claim 3, characterized by two locking brackets (45, 46; 135, 136, 137) for the actuator in its "on" and its "off" position. 6. Alarm clock according to claim 4, characterized in that the discharge circuit has a parallel to Has alarm device switched resistor (43). 7. alarm clock according to claim 4, characterized in that the discharge circuit with one in series the alarm device switched resistor (83). 1 sheet of drawings 009512/136