DE1218316B - Flashing switch - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

F21q

G08b
German class: 74 d- 8/04

Number: 1218 316

File number: T 25484IX d / 74 d

Filing date: January 23, 1964

Opening day: June 2, 1966

Flashing switch

There are already flasher switches with a so-called shunt circuit known in which at one Snap spring a tension element that expands when heated is attached, which is in electrical Series connection with a load resistor parallel to the switch contacts actuated by the snap spring is switched and which strives in the cold state, the snap spring in the switch contact open position to keep.

There are also already flashing switches with a so-called series circuit known in which also Again a snap spring is provided, on this snap spring one in series with the switching contacts arranged and when heated expanding tension element is attached, which in the cold State strives to support the contact closure effect of the snap spring.

These known flasher switches are in their mode of operation, especially in their ratio of switch-on and switch-off duration, relatively strongly dependent on changes in supply voltage.

In order to avoid this disadvantage of the voltage dependency in flasher switches of this type, according to the invention the combination of the following known features is proposed:

a) A tension element, which expands when heated, is attached to a snap spring, which in electrical series connection with a load resistor in parallel with through the Snap spring operated switch contacts is switched and which endeavors in the cold state is to keep the snap spring in the switch contact open position (shunt circuit).

b) On the snap spring is arranged in series with the switching contacts and when heated expanding further tension element attached, which strives in the cold state, the To support the contact closing effect of the snap spring (series connection).

The invention makes use of the fact that in the known series connection with as the operating voltage increases, the ratio between the switch-on time and the switch-off time decreases, while the reverse is true in the case of the known shunt circuit with increasing operating voltage this ratio increases. By combining the two known measures according to the invention these tension-dependent effects cancel each other out, and the relationship between the switch-on duration and the switch-off duration therefore remain constant in the event of changes in the supply voltage.

Applicant:

Tung-Sol Electric Inc.,

Newark, N.J. (V. St. A.)

Representative:

Dr.-Ing. F. Wuesthoff, Dipl.-Ing. G. Pulse and
Dipl.-Chem. Dr. rer. nat. E. Frhr. v. Bad luck man,
Patent Attorneys, Munich 9, Schweigerstr. 2

Named as inventor:
Hemming G. Siiberg,
Cranford, NJ (V. St. A.)

According to a further development of the invention, the additional tension element has proven to be advantageous in the form of a pull strip with deflection of the leaf-shaped snap spring on the To attach snap spring edges and to arrange a switch contact there, which with a stationary mating contact cooperates, the electrical connection to the one on the pull strip fixed contact takes place via the snap spring leaf. The snap spring leaf can be in the contact closed position be mechanically pretensioned in itself and the first tension element in the cold state of this Counteract pretension, while the additional tension element in the cold state this pretension reinforced. Finally, one end of the first tension element can be in the form of a attached to a stationary support piece in isolation and at its other end to the snap spring leaf attached puller wire be formed and the arrangement be made so that in the contact open position an external circuit via the support piece, the spring leaf, the pull wire and the resistor can be closed, while in the contact closed position of the pull wire and the resistor through the Pull strips and the two contacts are bridged.

The invention is illustrated below with reference to schematic drawings of an exemplary embodiment explained in more detail.

F i g. 1 shows a flasher switch according to the invention in a vertical section;

F i g. 2 shows the front view of the flasher switch according to FIG. 1;

609 577/126

F i g. 3 and 4 are partial sections taken along lines 3-3 and 4-4 in Fig. 2; '■' -. ': '. ■

Fig. 5 is a section taken along line 5-5 in i

The flasher switch parts are arranged on a disk 2 made of insulating material, from the underside of which two connecting lugs 4 and 6 protrude downward. Claw-like sections 10 of the terminal lug 4 protrude upward through the disk 2 and hold a support piece 8. This support piece comprises an upwardly projecting section 8a , which is provided according to FIG. 4 with shoulders 12, 12 separated by a distance, the lower one Part of a spring 16 made of resilient material is held in abutment on the two shoulders. The snap spring 16 bridges the gap between the shoulders 12, 12 and is held in contact with the shoulders by a screw 18; this screw extends through an opening in the blade 16 and is screwed into a threaded hole in the support piece 8a. Between the head of the screw 18 and the leaf 16 there is a leaf spring 20:

The sheet 16 is rectangular in shape and is folded and bent at 22 in the transverse direction. the Screw 18, in conjunction with the shoulders 12, 12, causes the blade 16 to be at right angles to the bend 22 extending longitudinal axis is curved so that the effort is made to straighten the sheet. The free upper end of the leaf spring 20 overlaps the curved portion 22 on the convex side of the blade 16 and carries a leg an L-shaped angle piece 24, on the other leg of which one end of a tensioned puller wire 26 is attached. The force applied by the wire to the blade via the angle piece 24 acts in one such a direction that it reinforces the action of the screw 18 and the shoulders 12,12 in the sense of straightening the blade and the free end of the Sheet 16 according to FIG. 1 moved to the right.

The support piece 8 has a horizontal upper leg 8 δ with an opening 28. The pull wire 26 extends up through opening 28 and is in the opening by means of a bead 30 anchored from insulating material. Beyond the insulating bead 30, the wire 26 is helical Load resistor 32 wound, the other end of which on one leg of a holding piece 34, which is supported by the support piece 8, but opposite the support piece 8 is electrically isolated. The holding piece 34 is electrically connected to the terminal lug 6 by a line 36 tied together. According to FIG. 5 is the holding piece 34 between flanges of the support piece 8, and there are Spacers 38 made of mica or other insulating material are provided on all sides of the support piece, to isolate it from the support piece. An upper leg of the holding piece 34 extends passes through an opening 40 of the support piece 8 and forms a support for a contact 42. At the upper free end of the sheet 16, a tensioned drawstring 44 is attached, which with the longitudinal edges of the blade is welded and extends parallel to the bent portion 22. The drawstring 44 carries a contact 46 opposite the contact 42 in the middle between its ends. Due to the tension of the tension band 44, the free end of the sheet 16 is bent about its longitudinal axis, namely against the curvature brought about by the screw 18 and the shoulders 12, 12. When the tension on the puller wire 26 is released and the puller strap 44 is cold, the contact is made 46 at contact 42.

Before going into the operation of the device described above, this should Interaction of the parts described and those mentioned above will be explained. With this one The device shown is the two traction means

ίο formed by the pull wire26 and the pull strap44. The drawstring 44 is connected to the sheet 16 so that it is part of the initial tension of the Sheet supplies in the direction of the contact closure position. The folded or bent portion 22 supplies the remaining part of the preload towards the contact closed position. the Together with the shoulders 12, 12, screw 18 enables both the initial and the final Adjustment of the device. The drawstring 44

ao forms part of the puller wire 26 when the contact 46 contacts the fixed contact 42 bridging conduction path, which is completed by the sheet 16 and the holding piece 34 and thus also the resistor 32 bridged. The device can thus be used as a series and Consider a shunt device or an automatically compensated shunt device.

To use the device, the parts are first adjusted with the aid of the screw 18 so that the contacts 42 and 46 touch when the pull wire 26 and the pull strap 44 are cold. If a circuit with a power source, which can be motor vehicle batteries with a nominal voltage of 12 V, and one or more lamps is connected to connections 4 and 6, the current first flows from connection lug 4 via support piece 8 , the sheet 16, the drawstring 44, the contacts 42 and 46, the retainer 34 and the lead 36 to the terminal lug. Here, the tension band 44 is heated so that it expands instantly, whereby the original mechanical tension is reduced, so that the blade 16 can perform a snap movement outwards in order to separate the contacts 42 and 46 from one another. The current now flows from the support piece 8 via the spring 20, the elbow 24, the pull wire 26, the resistor 32 and the line 36 to the terminal lug 6. Since the resistor 32 and the pull wire 26 are in this circuit, the current is sufficient not to light the lamps, but the magnitude of the current is sufficient to heat the puller wire 26 so that it expands to such an extent that the upper end of the sheet 16 expands under the action of the bias of the folded one Section 22 and the tension band 44, which has now cooled and tightened again, can move in order to close the contacts 42 and 46. As soon as the contacts 42 and 46 touch, the puller wire 26 and the resistor 32 are bridged, and the current flows via the sheet 16, the two halves of the pulling strap 44, the contacts 42 and 46, the retaining piece 34 and the line 36 to the Terminal lug 6. The strength of this current is sufficient to power the lamps to the

g ₅ light up. The lamps remain on until the expansion of the pull cord 44 and the simultaneous contraction of the pull wire 26 cause the sheet 16 to snap shut.

executes movement, contacts 42 and 46 are opened. Then what has been described is repeated Work cycle. During the switch-on time, the tension band 44 expands and changes the Biasing the sheet 16 so that the point at which the sheet is snapping is also displaced Movement. Compared to known devices of the bypass or bypass type the "snap force" becomes smaller and the flasher switch contacts open earlier. When the current flowing through the drawstring becomes noticeably weaker, e.g. B. as a result of failure one or more lamps, the tension in the drawstring remains high enough to keep the contacts keep closed. In this case, an identification lamp in the lamp circuit remains constant turned on to indicate failure of a flashing lamp.

When the voltage of the power source increases, it flows through the device both when switched on as well as a stronger current when the lamps are switched off, and the temperature of the pull wire 26 as well as the drawstring 44 increases. At this higher temperature the tensile stress is in the Pull wire 26 is less, and there is therefore a desire to shorten the switch-off time of the lamps; at this higher temperature, however, the drawstring 44 takes a longer time to contract; this creates an opposite tendency to lengthen the switch-off time of the lamps. Since the transition from the switched-off state to the switched-on state is a function of both The tension of the pull wire 26 as well as the tension of the pull strap 44 is automatically compensated regarding the change in the length of the switch-off time when the temperature changes. In the the higher temperature mentioned, the puller wire 26 also needs a longer time to contract, and therefore there is a desire to keep the lamps switched on longer; however, there the tension of the drawstring 44 is lower at this higher temperature, the pretension of the sheet 16 is lower, and this shortens the switch-on time. This way an automatic equalization becomes achieved with regard to the change in the switch-on time when the temperature changes. As both the switch-on times as well as the switch-off times due to the opposite effects of the two Traction means of the device according to the invention are kept essentially constant, is thus the flashing frequency also kept constant in the event of temperature changes. In addition, the contact distance increases with increased voltage and correspondingly increased amperage, because of the change the bias of the sheet 16, which causes the sheet 16 to move a greater distance can, whereby the operating speed of the device is also kept constant.

One embodiment of the invention has been described above. Of course you could use the invention also apply to flasher switches with different types of movable ones controlled by wires Blades are equipped. It is true that both traction means are used in the exemplary embodiment described 26, 44 heated directly by a current flowing through it, but it is obvious that one of the Traction means or both traction means could also be heated indirectly, e.g. B. by heating coils. Generally Spoken the invention provides a series and shunt flasher switch in which the two Traction means 26, 44 automatically compensate for the change in the flashing frequency and the ratio between the switch-on time and the switch-off time in the event of changes in the supply voltage.

Claims (4)

Patent claims: 1. Flashing switch, characterized by the combination of the following known ones Characteristics: a) on a snap spring (16) is a tension element that expands when heated (26) attached, which is in electrical series connection with a load resistor (32) is connected in parallel to the switching contacts (42, 46) actuated by the snap spring (16) and which is in the cold state endeavors to keep the snap spring in the switch contact open position (shunt circuit); b) on the snap spring (16) is arranged in series with the switching contacts (42, 46) and when heated, another tensile element (44) which expands and which, when cold, tends to reduce the contact closing effect, is attached the snap spring (16) to support (series connection). 2. Flashing switch according to claim 1, characterized in that the additional tension element in Form of a pull strip (44) with bending of the leaf-shaped snap spring (16) the snap spring edges is attached and the one switching contact (46) carries which with a stationary mating contact (42) cooperates, the electrical connection to the on the tension strip (44) attached contact (46) takes place via the snap spring leaf (16). 3. Flashing switch according to claim 1 or 2, characterized in that the snap spring leaf (16) is mechanically preloaded in itself in the closed contact position and the first tension element (26) counteracts this bias in the cold state, while the additional Tension element (44) increases this bias in the cold state. 4. Flashing switch according to claim 1 to 3, characterized in that the first tension element (26) in the form of a fixed with its one end on a stationary support piece (8) insulated and at its other end to the snap spring leaf (16) attached pull wire is formed and the arrangement is made so that in the contact open position an outer Circuit via the support piece (8), the spring leaf (16), the pull wire (26) and the resistor (32) can be closed, while in the contact closed position of the pull wire (26) and the Resistance (32) are bridged by the tension strip (44) and the two contacts (42, 46). Considered publications:
U.S. Patents Nos. 2,706,227, 2,706,228,
2712044,2712045. 1 sheet of drawings 609 577/126 5.66 © Bundesdruckerei Berlin