DE1081761B - Testing device for flashlight devices with battery-capacitor charging - Google Patents

Description

The invention relates to a test device for flashlight devices with battery-capacitor charging via a resistor, the capacitor and the flashlamp being bridged by a flashlight switch and a switchable circuit for a test lamp for flashlight circuit and flashlight switch circuit is provided.

A test device for flashlight devices with battery-capacitor circuit has already become known, in the case of a single capacitor voltage that is created or present in the circuit influenced display element is switched on or can be switched on, which is the test of the overall circuit or the optional testing of individual parts of the flash unit. The display organ can be a preferably high-resistance voltmeter, the color areas known per se as measuring marks, color scales Od. Like. Contains, or an incandescent lamp, glow lamp or glow path and can be solved with the Circuit connected and inserted into a line bridging the capacitor.

To check the operational readiness of a flashlight device, a flashlight device is to be used once igniting flash lamps with a test lamp that can be switched on in series with the flash lamp is known in which the contact device used to ignite the flashlamp is in the form of a push-button or lock-controlled Flashlight contact can be switched into the test circuit containing the control and flashlight is.

There are also battery-capacitor circuits for igniting one or more series-connected ones Flash lamps by means of a handy battery and for igniting a flash lamp known in which the lamp does not come directly from a battery or a generator, but via a capacitor is ignited, which is charged by the battery or generator before exposure. Even there are already ignition devices for flash lamps in the form of a cartridge in which a battery, a resistor, a capacitor and the flash lamp with a switch in the bypass circuit are.

The present invention differs from the known devices in that the test switch consists of the test lamp and spring contacts actuated by it. This training results in a relatively simple switch and saves space by combining the lamp and switch. The lamp is rotatably mounted about an axis running transversely through its base, so that it moves from a neutral position to a position for placing one base voter on a contact for bridging the flashlight circuit or in another position

Test device for flash units
with battery-capacitor charging

Applicant:

The Kaiart Company Inc.,
Plainville, Conn. (V. St. A.)

Representative: Dr.-Ing. PK Holzhäuser, patent attorney,
Offenbach / M, Herrnstr. 37

Claimed priority:
V. St. v. America dated November 5, 1952

Edward K. Kaprelian, Plainville, Conn. (V. St. Α.),
has been named as the inventor

can be pivoted to rest against another contact

as is, this contact being different from a third contact lifts off and the lamp is included in the flashlight switch circuit.

In the drawing, the invention is explained using an exemplary embodiment; is in her

1 shows a circuit diagram of a test system for testing the flashlight circuit of an open battery-capacitor circuit,

Fig. 2 is a circuit diagram of a test system for testing in the open battery-capacitor circuit existing locking switch,

3 shows a circuit diagram with a test lamp according to the invention for the optional testing of the flashlight circuit or the locking switch in an open battery-capacitor circuit,

4 and 5 are views of the test lamp of FIG. 3 in different test positions and

FIG. 6 shows a test arrangement similar to that of FIG. 3

for a closed battery-capacitor circuit.

The open circuit arrangement of FIG. 1 contains a flashlight circuit which has a 22.5 volt battery 1 of a hearing aid device, a relatively high resistance 2, approximately 500 to 5000 ohms, advantageously 2000 ohms, a capacitor 3 and a flash lamp 4 as a power source . The arrangement also has a bypass circuit 5, which is connected via the capacitor and the flash lamp and has a switch 6 which is usually open. The capacitor and the flash lamp are further connected in series with a P ruf circuit 7, which is an

009 509/136

pointing device, such as a control lamp common in flash units 8, and a test switch 9 which is usually open. The charging circuit is closed, when lamps 4 are screwed into all lamp sockets. To check that the entire flashlight circuit is flawless and closed by screwing flash lamps into all sockets, the test switch 9 is closed. The capacitor then discharges through the flash lamps and the control lamp 8. Their flickering indicates that the flash circuit is OK and usable for flashing is.

The circuit of FIG. 2 has the same reference symbols for corresponding components. She has that Purpose to check the shutter switch 6. A test switch marked 10 is provided for this purpose, which has a movable contact arm 11 which is either against the contact 12 or the contact 13 lays. By closing the contact 12, the bypass circuit 5 is closed, so that the flash lamps by short-circuiting the resistor 2 and the battery 1 after closing the switch 6 to Flashes are brought, and the closure of the contact 13 by the contact arm 11 closes the bypass test circuit 7. By closing the switch 6, when the contact arm 11 is on contact 13, not only the capacitor 3, the flash lamps and the line connections checked, but also the locking switch 6, since the control lamp 8 is not can flicker if the contacts of the switch 6 are not OK.

According to the invention, the circuit of FIG. 3 combines the P call devices of FIGS. 1 and 2. To three bypass circuits are provided for this purpose. The first is the lightning circuit created by a End clamp of capacitor 3 by wire 15, a spring contact 16, a second spring contact 17 in oblique contact with the contact 16, a wire 18, a Switch 6 and a wire 19 to an end terminal of the flash lamp 4 which runs in series with the capacitor 3 is switched. Pressing the switch 6 closes the battery 1 and the resistor 2 briefly, which causes the flash lamp or lamps to flash. The second bypass circuit is the test circuit used to test the Lightning circuit in the manner of the circuit shown in FIG. This second bypass circuit is in progress from the outer end terminal of the capacitor 3 through the wire 15, the test switch 21, a third Spring contact 20 and a wire 19 to an end contact of the flash lamp 4. The third bypass circuit is the circuit for testing the locking switch 6 is similar to the circuit of FIG. 2 and extends from the outer end terminal of the Capacitor 3 through the wire 15, the test switch 21, the spring contact 17, the wire 18, the locking switch 6 and the wire 19 to an end terminal of the flash lamp 4. The test switch 21 of FIG. 3 is used to prepare the flashlight bypass circuit for actuation by closing switch 6 and optionally to close one of the two test circuits. Checking the shutter switch 6 requires a closing of the test switch. For this purpose, the switch 21 has a movable contact part, the can have any shape. In the preferred embodiment of the invention is the test lamp arranged so that it forms the test switch 21 together with the spring contacts 16, 17 and 20. The test lamp is rotatably arranged and its base 22 is supported by a flexible wire, like the spiral 23, connected to the connection point between wire 15 and contact spring 16. The end clamp 24 at the bottom of the lamp can either be brought into connection with the contact spring 20, as in FIG Fig. 4 shown, or abut the contact spring 17, as

ίο Fig. 5 shows. This figure also shows that the contact springs 16 and 17 are separated when the bottom clamp of the test lamp rests against the spring 17. Located If the test lamp is in a vertical position, its bottom clamp does not touch the contact spring 17 nor the contact spring 20, as shown in FIG. The test lamp is usually in a vertical position, for example, held by a suitable spring (not shown).

Leave the circuits shown in Figures 3, 4 and 5

so recognize that in the position of the test lamp in Fig. 3 the circuit for flashing is prepared by closing the switch 6 that in the test lamp position 4, the flashlight circuit is checked by the flickering of the test lamp 8, and finally that in the position of the test lamp shown in Fig. 5, the circuit for testing the locking switch is prepared by its closing. FIG. 6 is similar to FIG. 3 in that the various Circuits can be closed by the position of the lamp 8 or prepared for closing. she differs from FIG. 3 insofar as this is an open battery-capacitor system, and FIG. 6 is a closed battery-capacitor system shows. In Fig. 3, the charging circuit of the capacitor 3 is only closed when the flash lamps are screwed into the associated lamp sockets, while in Fig. 6 the charging circuit is permanent is closed, regardless of whether flashlights are screwed in or not.

Claims (1)

Claim: Test device for flash units with battery-capacitor charging via a resistor, the capacitor and the flashlamp being bridged by a flashlight switch and a Switchable circuit for a test lamp for flashlight circuit and flashlight switch circuit provided is, characterized in that the test switch from the test lamp (8) and from this actuated spring contacts (16, 17, 20), the lamp by a transverse through its base extending axis is rotatably mounted such that it is from a neutral position in a position to Installation of one base contact on a contact (20) for bridging the flashing light circuit or can be pivoted into another position to rest against another contact (17), wherein this contact stands out from a third contact (16) and wherein the lamp in the Flash switch circuit is involved. Considered publications:
UNITED STATES. Patent Nos. 2,590,069, 2,395,600, 2,584,858; German patent applications Z 159 IX a / 57 c (announced on March 8, 1951, V 4025 IXa / 57c (announced on June 19, 1952. 1 sheet of drawings