DE2807224A1 - Motor vehicle trafficator circuit - uses car clock quartz oscillator whose output signal is amplified under control of switch which also activates trafficator lamps - Google Patents

Abstract

The trafficator circuit derives its clock pulse frequency from the dashboard quartz clock, with the signal tapped from the clock circuit and suitably amplified. The circuit can incorporate a failure flasher indicator in which the flashing rate is changed. The quartz oscillator based clock pulse rate is stable over a wide temperature range as well as a wide range of input voltages. It provides a simple solution to the flasher design and can be incorporated into most vehicles.

Description

Electric direction indicator -for automobiles

The invention relates to an electrical direction indicator or blinker for automobiles in which the vibrator used for automobiles Quartz watch is used.

The attached Figure 1 shows a conventional electrical direction indicator, which is used for automobiles and in which a display device displays P, whether the electrical load resistors L, which are usually lamps, are working properly or not. The display device P is powered by a self-excited vibrator S (or oscillator) actuated as an automatic flasher switch, for such an automatic flashing light switch must be a periodic one in such a system Cycle for ON-OFF operation of the flashing light system can be set, and the periodic Cycle is through external Conditions such as changes in ambient temperature and the voltage of the battery of the automobile in an undesirable manner and changed.

It is therefore 4ufSrabe of the present invention to provide an electrical To create direction indicators in which a quartz vibration generator or a quartz oscillation source is used and which has a highly stabilized periodic cycle and a high Has operational reliability.

It is also an object of the present invention to provide an improvement to remove the disadvantages associated with the use of Nuarz vibrators are connected.

The present invention now provides a direction change indicator Created for automobiles that have a high level of accuracy and reliability in its EIN - RUS operating period, regardless of external conditions such as for example changes in ambient temperature and battery voltage, by using a vibrator or oscillator for automobiles Quartz watch is used.

The invention is illustrated below by means of exemplary embodiments of the attached drawings.

In the drawings: Figure 1 shows a conventional electrical Direction indicator, Figure 2 is a circuit diagram of a direction indicator according to the present Invention, Figure 3 is a circuit diagram of a warning system according to the present invention Figure 4 is a timing diagram for the embodiment shown in Figure 2, Figures, 7 and 8 circuit diagrams for improved embodiments of the direction indicator according to the present invention, and Figure 6 is a timing diagram For the embodiment of the direction indicator shown in FIG present the invention.

Reference is now made to FIGS. 2 and 3. Figure 2 shows a direction indicator using a quartz vibration generator, and FIG. 3 shows a warning system for displaying the amount of water, amount of oil and temperature for an automobile. Numeral 1 denotes a DC power source, 2 is an ignition switch, 3 a vibration generator or oscillator from a quartz watch, Which is used for automobiles, 4 are direction indicator lamps, 5 are indicator lights, 6 is a switch for direction change indication, 7 is a synchronized switch, which operates in synchronism with the direction change indicator switch 6, and 8 is one Amplifier circuit, the resistors, an inverter, a NAND gate, a relay and a diode for amplifying the signal from the quartz vibrator 3.

The circuit described above works as follows: By actuation of the direction indicator switch 6 for right or left turning of the automobile the synchronized switch 7 is switched on so that the direction indicators 4 and the control lamps 5 are actuated, whereby a correct display is made, di «indicates the turning of the automobile.

In addition, the ontrollampe 5 remains in the OFF state when on The filament of one of the direction indicator lamps 1 is broken or not connected, since a relay in the amplifier circuit 8 ends its alternating ON-RUS switching, since the current flowing through the threads of the direction indicator lamps 4, is decreased. Hence in this way the breakage or disconnection becomes the thread of a direction indicator lamp 4 indicated by the control lamp 5, the is in its OFF state.

In Figure 3 is a warning lamp <J for the warning display of the amount of liquid, Temperature and pressure if the values are respectively predetermined setpoints achieve, shown. The reference numeral 10 denotes a sensor which is closed is when the amount of liquid such as water is a predetermined value achieved. By closing the sensor 10 actuates the pulse signal that con the Quartz vibration generator 3 is generated, the warning lamp @ by the amplifier circuit 8th.

In Figure 2, reference numeral 81 denotes a relay, 82 is one Protection diode, 83 and 81 are resistors, 83 is an inverter. 86 is a NAND gate and 87 is a capacitor. Referring now to FIG The timing diagram shows the operation of the direction indicator in the case of the quartz oscillator 3 is used.

A period of time #t is necessary from the time the direction indicator switch 6 is operated for right or left turns of the automobile until the time t at which the direction indicator lamp 1 starts operating, and the period #t corresponds to half a cycle of the output frequency of the quartz oscillator 3. In this embodiment, which is shown in Figure 2, one cycle of the output signal of the quartz oscillator 3 is about 700 msec. and the delay time #t is about 350 msec. If the delay time or start time is large, will the display, which indicates the turning of the automobile, is thereby delayed. what sometimes can lead to dangerous situations.

The direction indicator shown in FIG. 2 will now work is described in more detail with reference to FIG. the waveform the output frequency from the quartz vibrator .3 is a pulse signal. which has two levels 1 and 0. The quartz oscillator 3 usually oscillates in this way. that it delivers the pulse signal. When the direction indicator switch 6 is in its is held in the neutral position, the output signal of the inverter is 8 @ is at the low level "0" and the output of the NAND gate 86 is at one high level "1". On the other hand, if the direction indicator switch 6 for the right or left turn of the automobile operated becomes the output signal of the inverter 89 au (brought the high level 1 and generated the NAND gate 86 a pulse signal with two levels 1 and 0 in correspondence with the pulse of the crystal oscillator 3. This actuates the relay 81 to thereby activate the direction indicator lamp 4 to operate in accordance with the pulse signal.

If the direction indicator switch 6 is closed at the time at which the crystal oscillator 3 generates the signal with the high value 1, the output signal becomes of the NAND gate 8 <3 from the high level 1 to the low level at the same time 0 brought and the relay 81 is switched to the ON state to thereby to operate the direction indicator lamp 1.

When the direction indicator is 6 at the time the crystal oscillator 3 the signal generated with the low value 0 is closed, the output signal of NAND gate 86 is held high 1 until the output of the ouarzoszillators 3 assumes the high value 1. Therefore the possible maximum is Period of time between the time at which switch 6 is actuated and the time to which the relay 81 or lamp receives power, about half a cycle the output frequency of the crystal oscillator 3.

Referring now to Figure 5, an improved embodiment of the direction indicator for an automobile is shown. The reference numeral 88 denotes an amplifier composed of an inverter, and 881 and 882 denote frequency dividers composed of J-K flip-flop circuits. The same reference numerals given in Figure 2 denote the same Parts or circuits. The direction indicator shown in FIG. 5 will now work When the direction indicator switch 6 is in a neutral position is located, the output of the inverter 85 is low 0 and the output of the NAND gate 86 is stable at the high value 1. Furthermore The output signals of the frequency divider 881 and 882 each have the low value 0, the output signal of amplifier 88 is on the high Level 1 and relay 81 receives no power.

On the other hand, when the direction indicator switch 6 is operated, the Output of inverter 85 switched to the high value 1, and the NAND gate 86 generates pulse signals with two levels 1 and 0. If the output signal of the NAND gate 86 changes from the high value 1 to the low value 0 changes also the output signal from divider 881 from 1 to 0 and the output signal from the plate 882 also changes from 0 to 1. Then the output signal changes from the amplifier 88 from 1 to 0, whereby the relay 81 is actuated. in contrast this is when the output signal of the NANI> gate 86 changes from the value O to the value 1 changes, then the relay 81 is brought to the OFF state, and the relay 81 becomes started with interrupted actuation (i.e. ON-OFF switching) to thereby activate the To switch direction indicator lamps 4 with interruptions In this embodiment two frequency dividers are provided, so that the output frequency of the amplifier circuit 88 is about a quarter of the output frequency of the crystal oscillator 3, which is also leads that the period of the relay 81 for ON-OFF switching is about a quarter of the Output frequency of the crystal oscillator 3 is.

Fig. 6 shows a timing chart for the operation of the embodiment of the direction indicator shown in FIG.

The direction indicator switch 6 is closed at time t0, and the Direction indicator lamp 4 is switched on at time tl.

The time span # t 'is the delay time, i.e. the start time of the Direction indicator lamps 1, and the delay time b t 'is a quarter of Delay time At in the previously described embodiment, and it follows from this that that the starting time of the direction indicator lamp can be reduced as desired.

In this way, the length of time from the actuation of the direction indicator switch 6 up to the switching of the direction indicator lamp 4 can be reduced1 by using two frequency dividers881 and 882 can be provided.

In Figure 7, an embodiment of the direction indicator is shown, in which five frequency dividers 881, 882, 883, 884 and 885 are provided. Everyone who Divider consists of J-K flip-flop circuits, and the output frequency of the crystal oscillator 3 is divided by the five frequency dividers to about 1/32. This will reduce the delay time noticeably reduced. Operation of the direction indicator in the embodiment with the circuit shown in Figure 7 is the same as the operation of the direction indicator according to Figure 5.

Thus the delay time or start time is according to the number of Frequency divider suitably adjustable.

In Figure 8 is a further improved embodiment of the direction indicator, in which a quartz oscillator for automobiles is used, shown and here the synchronized switch 7 is omitted in order to make the circuit more compact. The synchronized switch i in Figures 2 and 7 is for the following reasons necessary. It is through the line Lo from the direction indicator switch 6 without Providing any other detection terminal detects whether the direction indicator switch 6 is in the neutral position or in the closed position. If therefore the direction indicator switch 6 is closed, is a pulse signal with high and low level values on the line Lo, and therefore must be synchronized Switch 7 is necessarily provided synchronously with the direction indicator switch 6 will. Numeral 12 denotes a memory circuit made up of NAND gates 121, 122 and 123 is composed. The inputs of the NAND gate 123 are on the one hand connected to the direction indicator switch 6 to the position of the switch 6 to detect, and on the other hand connected to the crystal oscillator 3. One of the entrances the NAND gates 121 and 122 are each connected to the output of the other NAND gate 122 or 121 connected. The output of the NAND gate 123 is the other input of the NAND gate 122 and the other input of the NAND gate 121 is with the direction indicator scarf ter 6 connected via a resistor. Through the NAND gates 121 and 122 a so-called set-reset flip-flop circuit educated.

When the direction indicator switch G is in the neutral position, the output of the NAND gate 121 is at the low value 0, during the The output of the NAND gate 86 is at the high value 1 and the relay is in the OFF state is held. The output signal from the quartz vibrator 3 becomes as usual generated.

On the other hand, when the direction display switch 6 is for right or left turn of the automobile is closed, this switch is in the closed position 6 detected by the line Lo, since the line Lo over the direction indicator lamp 4 is grounded. Therefore, the input terminals of the NAND gates 121 and 123, which are connected to the direction indicator switch 6, the low value O. The output signal of NAND gate 121 goes high to 1, and NAND gate 86 produces that Pulse signal with high and low values of 1 and 0, thereby turning ON-OFF of relay 81 to start.

If the direction indicator switch <3 returns to the neutral position is brought, the detection connection is where the line Lo with the direction indicator switch 6 is connected to the high value 1, so that the output signal of the NAND gate 123 drops low when the output of the Crystal oscillator 3 has the high value 1.

In this way, the output (low value 0) of the NAND gate becomes 121 is stored in the memory circuit 12, the output from the NAND gate 86 is held at the high value 1, thereby stopping the switching of the relay 81.

As can be seen from the above explanation, the ON-OFF switching becomes the direction indicator lamp 4 is correctly achieved without the synchronized switch 7 is provided.

The advantages of the present invention can be indicated as follows become: (1) The vibrator or oscillator in the quartz watch becomes more effective Way used for the direction indicator, so the setting process for the periodic cycle of ON-OFF operation (ON-OFF switching) becomes unnecessary, and the present invention can provide a direction indicator that has high stability and has reliability regardless of changes in temperature and voltage the battery and the like. The direction indicator according to the present invention can be applied to automobiles of any type and requires little electrical Performance thanks to its compact circuit design.

(2) The direction indicator according to the present invention can be used also in the field of quantity indicators, warning systems and setpoint controls can be used, for example, to display the amount of liquids such as water or to display temperature and pressure.

(3) By providing the memory circuit, the synchronized Switch that works synchronously with the direction indicator switch can be omitted, in order to make the circuit easier and to reduce costs.

(4) As a vibration generator or oscillator can be used in the present Invention, a tuning fork and the like can also be used.

(5) The reliability of the quartz watch or the timer may be stronger increase.

L e r s e i t e

Claims (6)

Claims 1. Electric direction indicator for automobiles, d a -d u r c h e k e n n n n z e i c h n e t that with him the vibration generator (3) a quartz clock is used for automobiles and that it is used in addition to the vibration generator an amplifier circuit (8; 88) for amplifying the output signal from the vibrator (3) the quartz clock, a switch (6) to control the operation of the amplifier circuit (8; 88) and indicator lamps (4) which are switched via the switch (6) contains. 2. Electrical indicator according to claim 1, d a d u r c h g e k e n It should be noted that the switch (6) consists of a change of direction indicator switch and the indicator lamps (4) each change direction indicator lamps or turn signal lamps are. 3. Warning system, d u r g e k e n n n z e i c h -n e t that with her a vibration generator (3) of a quartz watch for automobiles is used and that in addition to the vibration generator for a quartz watch, it has an amplifier circuit (8) to amplify the output signal from the oscillator of the quartz watch, a sensor or switching grinder (10) to detect a physical Size (liquid level, temperature, pressure, ...) and a warning lamp (9), which is switched via this switch. 4. Electrical indicator according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the amplifier circuit (8) has a certain number of frequency dividers (881, 882J 883, ...) for dividing the output frequency from the vibrator 3. Contains the quartz watch. 5. Electrical indicator according to claim 1, d a d u r c h g e k e n It should be noted that the amplifier circuit (8) continues to be a memory circuit (12), so that a further switch (7), which is synchronous with the switch, is omitted (6) is operated. 6. Electrical indicator according to claim 1, d a d u r c h g e k e n It should be noted that he still has a memory circuit (12) with NAND gates (121, 122, 123), the inputs of which on the one hand connect to the output of the quartz oscillator (3) are connected and on the other hand a signal. that by pressing the switch (6) is generated, received and the one set-reset flip-flop circuit (121, 122) contains.