DE2241689A1 - INDICATOR SWITCH WITH FAILURE INDICATOR - Google Patents

Description

4690 Herne,. 8000 monks ¹ ^

Freiligrathstrasse 19 r "i" SS "" ^ HRahir ElseaaCie? Street 17

P.O. Box 140 Dsps.-lng. R. H. Banr µλ

Pat. Herrmann-Trentepohl Dipl. » PhVS. EdU3PCi B © tgS @ S "'Telephone: ||| QI

Telephone: 51013 · * ■! #. j S

⁵¹⁰¹⁴ Dipl.-Ing. W. Herrmamn-Trentepohl

Telegram address: Telegram address:

Bahrpatents Herns PATENTANWÄLTE Babetzpat Munich

Telex 08 229 853 Telex 5 215 360

ρ - \ bank accounts:

Bayrische Vereinsbank Munich 952287 Dresdner Bank AG Herne 7-520 Postal check account Dortmund 558 68

^Ref " ^: M 03 792 B / h.

please indicate in the answer

Zueciiriit please to:

Munich

August 24, 1972

Tridon Limited, 201 North Service Roadj Burlington ^

Ontario _} Canada

Turn signal switch with failure indicator

The invention relates auf.Verbesserungen to turn signal switches, such as are used for example in motor vehicles for blinking signal lamps and is particularly directed to such a switch with fail indicator _s d® h "with the automatic indication ^ that one or more of the controlled from the switch Lanrpen not working,

There are already a variety of turn signal switch devices with failure indicators. May be mentioned as examples of the devices according to US Patents 2 743 401 ₉ 2 844 814, 3421143 and 3421157 · These devices usually contain a current-measuring arrangement which, the maximum current in the field flashing lamps MIBT and a light Provides snarling or measuring device signal when the current drops as a result of a lamp failure.

A flasher switch is known from US Pat. No. 3,247,402 which has a pair of coils connected in parallel

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a core is wound to generate opposing magnetic fields, with a capacitance in series with one of these Coils is switched. When power is supplied to the switch, the fields of the coils counteract each other until the capacitor is charged, whereupon the switch closes and the lamps light up. When the switch is closed, the coils short-circuited and the capacitor discharges through its coil. This discharge holds the switch for a predetermined one "On" period closed. The switch then opens and the cycle repeats itself. The object of the invention is to create a flasher switch with a novel failure indicator.

Another aim of the invention is to create a flasher switch in which the flashing speed at different Loads is relatively constant and in which a failure is indicated by increasing the blinking speed will.

The invention solves these problems by a flasher switch, in particular for flashing lights on motor vehicles, with a Pair of switch terminals for connecting the switch to a direct current source and for forming the Sndkleaimen at least a current path through the switch with a switch actuator in the current path between the terminals with a Flashing speed that changes when at least one of its impedances changes and with one located in the line, to determine the maximum current flow in the current detector used by the switch to blink, which responds to a predetermined drop in the load current and the at least one impedance for Increase in the flashing speed of the switchgear changes.

In the following preferred embodiments are based on the Drawings are explained in more detail.

The drawings show in

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Fig. 1 is a schematic circuit diagram of a first embodiment and in .

Fig. 2 is a similar circuit diagram of a second embodiment.

In the drawings and in the following description, the following reference symbols are used for the specified parts:

10 casing 11 Connector 12th Finally, emiae 13th DC power source 14th Lamps 15th magnetizable switch core 16 Kitchen sink 17th Kitchen sink 18th resistance 19th Kitchen sink 20th capacitor 21 resistance 22nd diode 23 Leaf spring switch 23a transistor 24 anchor 25th movable Contact 26th fixed contact 27 feather 28 On-off switch

In the drawing, 10 denotes the housing that contains the individual elements of the indicator switch according to the invention encloses. The switch is provided with two connection terminals 11 and 11, via which it is connected to a direct current source 13, usually an automobile battery, and connected to lamps 14 that should be made to flash by the switch. These terminals also form the connection or end

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clamp for the various current paths through the switch, as will be explained in more detail below.

A magnetizable switch core 15 carries two identical parallel wound coils 16 and 17 relatively high Resistance value of, for example, 300 to 600 ohms, the coils being arranged in such a way that when energized they counteract one another Magnetic fields arise. The coil 16 is connected at one end to the terminal 11, while the other end via a resistor 18 and a leaf spring switch actuating coil 19 is connected to the terminal 12. The coil 17 is at one end to the connection terminal 11 connected through a capacitor 20, while the other end is forward biased through a resistor 21 Diode 22 is connected in parallel to resistor 21 and coil 19 to terminal 12. The switch 23 is with its normally open contacts connected in parallel with the resistor 21 and the diode 22, so that when the Switch resistor and diode are short-circuited. An armature 24 of the switch is driven by the nuclear magnetic field moves and carries a movable contact 25 'which interacts with a fixed contact 26. The anchor will normally • in a direction in which contacts 25 and 26 are open, pressed by a spring 27. Each of the coils 16 and 17 can generate a magnetic field when excited, which the armature 24 moves with the closure of contacts 25 and 26.

In normal operation of the device, when all too blinking Lamps work so that the current flow through the switch is above a predetermined value, result from Closing the on-off switch 2ü, usually the direction indicator switch the following processes of a motor vehicle:

The current flows through both coils 16 and 17 and creates equal and opposite fields which cancel each other so that the armature 24 is not moved. The current flow through the winding 19 is not sufficient to close the contacts of the switch 23. However, the Hiode 2.2 conducts, so that

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the resistor 21 is actually bridged and does not affect the charging of the capacitor. The capacitor charges 20, then the field generated by the winding 17 decreases, up to a certain point the field of the winding 16 move the armature 24 and thus the main contacts 25 and can close, whereupon the lamps 14 light up. The armature 24 now short-circuits the coils 16 and 17. The field in the coil 16 collapses immediately, but the field in the coil 17 remains due to the discharge of the capacitor 20 maintain the coil. During this period, the current flow through the coil 19 is sufficient to switch the switch 23 on close so that the resistor 21 is bridged and does not affect the discharge of the capacitor. The field of Coil 17 keeps contacts 25 and 26 closed and the lamps therefore remain lit until the capacitor is sufficient is discharged, whereupon the main contacts open and the lamps go out. The cycle then repeats itself.

The period of time for the main contacts to close after the on-off switch 28 is closed constitutes the "off" portion of the switch cycle, while the period in which they are closed constitutes the "on" portion of the same cycle. The operating requirements for such a switch for vehicle direction indicators are now essentially standardized and usually about 90 flashes per minute should be generated, with the lamps being illuminated for about 50% of the time. The working requirements for a switch according to the invention can be adjusted by suitable selection of the values of the various mechanical and electrical switch components, as the person skilled in the art will readily recognize. A switch, as it is explained, for example, in US Pat. No. 3,247,402, readily permits a duty cycle of approximately 50% lighting time, the duty cycle not being influenced by the value of the current load to be flashed.

The coil 19 and the switch 23 form a current measuring detector which operates when the current falls below a predetermined lower value

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Value falls. Such a lower value is usually then achieved when one or more of the lamps 14 has failed and are not carrying electricity. However, it can also result from a general disturbance in the conductivity of the lamps and the assigned circle for reasons of aging or corrosion result. If the closing of the contacts 25 and the current flow is below the predetermined value, the switch 19 remains open and the resistor 21 is introduced into the circuit, so that the capacitor is now must discharge through the resistor 21, which abruptly reduces the current through the coil and, accordingly, abruptly her Magnetic field decreased so that the contacts open after a substantially reduced "on" period, resulting in a abrupt and striking refusal of the blinking speed from, for example, 90 per minute to 150 per minute.

It can thus be seen that a switch according to the invention is a completely inevitable and unmistakable one Provides indication of a lamp failure without compulsion to expensive external display devices. That was the case, for example Effect of lamp failure in known switches, the actuation of additional signal devices or the reduction the flashing frequency.

As indicated above, in the known devices, the flashing frequency is also progressively increased by destroying the circular conductivity decreased over a long period of time so that an observer would not generally see the change found can determine. It can therefore happen that a false failure display occurs when all the lamps actually light up, Or alternatively, a lamp may have failed, but the change in the flashing frequency is not carried out observed the observer used to the slower speed «, This effect is sufficient for difficulties in the development of such switches in an attempt to ensure that they do not give false readings. An abrupt one In contrast to this, however, increasing the blinking speed is an inevitable and unmistakable indication that

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that the observer's attention is required.

In the circle shown in FIG. 2, the work coil 19 of the spring switch of the circle according to FIG. 1 is through replaced a resistor with low resistance, while the switch 23 and the diode 22 by a transistor 23a are replaced

The resistor 19 and the transistor 23a ″ together form one Current value detector. If the lamp current is sufficiently high when the contacts 16 and 26 are closed, then that is sufficient Voltage drop across the resistor to bias the transistor into its conductive state, while short-circuiting the resistor 21 and allow the capacitor 20 to discharge normally. If there is not enough electricity, it stays that way The transistor is not conductive and the capacitor has to discharge itself through the resistor, which reduces the flashing speed in the is increased in the manner described above.

In a modification of the circuit according to FIG. 1, the resistor 21 is replaced by an impedance which is formed by an additional winding on the core 15. The polarity of this additional winding is such that the flux generated by it opposes the flux generated by the windings 17. In the operation of this circuit, provided that sufficient current flows through the switch coil 19, its contacts remain open and the capacitor charges normally and also discharges normally. If the current through the coil 19 drops sufficiently, the contacts open. The capacitor charges normally via the diode 22, but discharges via the additional winding which counteracts the flow of the winding 17, which means that the contacts open more quickly and the blinking speed decreases. In addition, there is a more inevitable opening. It has been found that with such a circle it is possible to get fairly close to the ideal value of 50 % HßiLn ¹¹ and 50 % "Off" for each lamp. ■;

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-SH-

Although in the particular embodiments described above, the change in the blinking speed is achieved thereby is that one uses an impedance in series with the holding coil 17, one obtains the same effect then, when changing the impedance of the main coil 16 and changing the impedance in series or in parallel, so that the desired There is a change in the flashing speed.

-Patent claims: -

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Claims (9)

Claims ί1.) Indicator switch, in particular for indicator lights on motor vehicles, with a pair of switch terminals (11, 12) for connecting the switch to a direct current source (13) and for forming the end terminals of at least one current path through the switch, with a switch actuating device (15, 16) , 17) in the current path between the terminals (11, 12) with a flashing speed that changes when at least one of their impedances (17) changes and with one located in the current path to determine the maximum current flow in the one made to flash by the switch Load (14) serving flow detector (19, 23 / 23a) which responds to a predetermined drop in the load current and which changes at least one impedance (17) to increase the flashing speed of the switch. 2. indicator switch according to claim 1, characterized in that the current detector has an additional, the speed changing impedance (21) switches on in series with the at least one impedance (17). 3. Binker switch according to claim 1 or 2, characterized in that the current detector has a magnetically controlled switch with a work coil (19) in which the load to be flashed (14) containing current path and switch contacts (23) with interposed speed change impedance (21), a current flow in the work coil (19) above a predetermined value, the contacts short-circuiting the speed change impedance (21) closes and a current flow below the - 10 309812/0772 correct value, the contacts cannot close, so that the speed change impedance (21) im Circle remains and thus changes the at least one impedance (17). 4. indicator switch according to claim 1 or 2, characterized in that the current detector has a the load current absorbing impedance (19) and a rectifier device (23A) controlled by this with another impedance (21) connected in parallel, with a load current in the one receiving it Impedance (19) above a predetermined value keeps the rectifier device (23a) conductive and thus short-circuiting the other impedance (21) while a load current is below the predetermined value makes the rectifier device (23a) non-conductive and thus the other impedance (21) while increasing the Flashing speed is switched on. 5. Indicator switch with failure indicator, characterized by a pair of switch terminals, by a magnetizable coil, by a first and a second working coil on the core and in parallel connection between the switch terminals for parallel power supply with current from a direct current source, which is switched on between the switch terminals, so that essentially the same oppositely directed magnetic forces are created by a contact switch, by a pretensioning device for the contact switch that moves in one direction from a first to a second position when the core is energized one of the work coils is moved by the non-opposing magnetic force and in the other direction moves from the second to the first position under the action of the pretensioner, by an in Series with the second coil lying capacitor, which is caused by the current flowing through the second coil - 11 309812/0772 is charged and when discharged by the second coil causes the core to be excited to such an extent that the contact switch is in the second position remains, through a movable contact moved by the contact switch, by another of the movable contact Contact detected contact when the contact switch is in the second position by the contact switch containing short-circuit devices, which have a short-circuit via the capacitor and the second Build up coil when the moving and the other contact stand in contact with each other, and by a switched on current detector to determine the current magnitude between the movable and the other contact in the engaged position, acting on a drop in current responds below a predetermined value and the value of a blinking speed controlling impedance of the Switch changes and with it the blinking speed itself. 6 · Flashing switch according to claim 5 ». Characterized in that the current detector has an impedance turns on in series with the second coil and the capacitor and thus the switch flashing speed elevated. ; 7. flasher switch according to claim 6, characterized in that the current detector has a magnetic controlled switch with a work coil in the current path of the moving and other contact and with switch contacts with interposed speed change impedance, the current of the load current in the work coil above a predetermined value the contacts closes and thus the speed change impedance short-circuits while a load current is below the predetermined value the contacts do not close, so the speed change impedance in the circle in series with the second 309812/0772 Coil is switched on. 8. flasher switch according to claim 6, characterized in that the current detector an impedance in the current path of the movable and the other contact, which absorbs the load current and a controllable rectifying device with the speed change impedance in parallel is switched and controlled by the impedance absorbing the load current is, with a load current in the impedance absorbing it above a predetermined Value the rectifying device is kept conductive and the speed change impedance short-circuits, while at a load current below the predetermined value, the rectifying device remains non-conductive and thus the speed-changing impedance in the circuit in series with the second coil is switched on. 9. flasher switch according to claim 7 »characterized in that the speed-changing Impedance is an induction coil on the magnetizable core that is in series with the second coil is switched and one of the magnetic force of the second coil counteracting magnetic force generated. 30981 2/0772