DE2715391A1 - Vibration switch for burglar alarm - has two sets of contacts, one with snap action and other with indicating pin - Google Patents

Abstract

The vibration switch for a burglar alarm has a closed case with contacts which, when the switch is subjected to vibrations, open a circuit which trips a signalling device. The contacts consist of a first, normally closed contact set (13, 14) with a snap-action. When an adjustable amplitude of vibrations is applied to it, it breaks a previously closed circuit. A second contact set (21-23) is provided within the movement or opening range of the first contact set (13, 14). This set also opens when the first contact set opens. It has an indicating pin (20) which projects from the switch case (1) when the circuit is broken. It remains in this position until both contacts (13, 14, 21-23) are again closed.

Description

Shock switch, especially for

Burglar alarm systems The invention relates to a vibration switch, especially for burglar alarm systems, with in a closed switch housing arranged electrical contacts, which in the event of vibrations a Interrupt the circuit to trigger a signaling device. Mechanical Vibration detectors for intrusion alarm systems usually work according to the principle the contact bruise, in which the duration of the interruption of the electrical circuit, however, is extreme is short, so that the evaluation devices of the burglar alarm system are extremely sensitive and know how to react quickly. That is with the not inconsiderable eighth connected that such burglar alarm systems extremely against the effects of the earth are sensitive, for example, effects from the power grid that, like is known to every professional, are hardly controllable and therefore hGufio false alarms trigger.

The invention is based on the object of knowing the disadvantages Avoid vibration alarms and get an eifrc? and functionally reliable vibration switch to create, ctcr can be precisely adjusted to certain desired trigger values can and is designed so that it is unaffected by.

unwanted external influences at the set vibration value opens with certainty and remains in this open position until it taking into account additional safety measures and facilities closed position has been brought.

This object is essentially achieved according to the invention in that a normally closed, designed according to the snap spring principle first contact arrangement is provided, which when reaching a certain adjustable Vibration strength interrupts a previously closed circuit, and that a second contact in the movement or opening area of the first contact arrangement arrangement is provided that also when opening the first contact arrangement opens and which has an indicator pin that switches off when the circuit is broken the switch housing protrudes and in this position for so long is held until the ctromkreis by closing both contact arrangements again has been closed.

With the invention, a vibration switch is thus created, which is not based on the principle of contact bounce, but on the snap spring principle in that use is made of the fact that when you reach one of the times it is possible to set it Vibration strength the echnappfedeinrichtung jumps from its normal position and that a previously closed circuit is opened. Fs r-n 'elt there basically does not matter which embodiment O (from other techniques known snap spring principle is used when it is just sensitive reacts enough and can be precisely adjusted accordingly. Also a modification of the snap spring principle, in which a normal compression spring and a rigid but movably mounted one Switching element can implement the snap spring principle in isolation.

Another advantage of the invention is that the switching state of the Shock switch by removing it from the switch housing in the event of a shock protruding indicator pin is immediately recognizable. The indicator pen is advantageously attached above the snap spring and coaxially to it in such a way that that he is in his normal position about halfway between the normal position located snap spring and the end position of the unsprung snap spring is. In this position, a contact bridge attached to the indicator pin connects two Contact springs with each other, which are in the same circuit as that of the snap spring assigned contacts. This arrangement ensures that in the event of a shock of the switch, not only does the snap spring jump around Circuit the signal system opens, but also hits the indicator pin and its upper one Part through a corresponding recess in the housing of the shock absorber switch lets step out. In this way, when an alarm is triggered, the location of the alarm is always triggered immediately recognizable.

Further features of the invention emerge from the patent claims 2 to 7.

It is also ensured that sabotage of the vibration switch, for example by fixing the indicator pin in the on position of the switch, This ruled out if the associated second contact arrangement is actually closed is.

An embodiment of the invention is shown schematically in the drawing shown. 1 shows a plan view of a shock switch in FIG partially sectioned representation gerffß section line 1 - I in Fig. 2, Fig. 2 a vertical section through the shock switch according to section line II - II in Fig. 1, Fig. 3 shows a further vertical section through the in the closed position located switch according to section line III - III in Fig. 2, Fig. 4 a Fig. 3 corresponding section through the switch in the open or release position and FIG. 5 is a schematic plan view of details of the switch shown in FIGS Side views of FIGS. 2 to 4 cannot be seen.

At the bottom 2 of the housing 1 of the shock switch is a substantially T-shaped chassis 3 with of the Ends of the two T-legs 4, 5 approximately U-shaped towering supports 6, 7 and thereof in the same plane to both Sides outwardly angled supports 8, 9 for one designed as a leaf spring Snap spring 10 attached. The cchrappfeder 10 can be attached to the supports 8, 9 of the chassis 3 be attached with fastening rivets 11 or the like and has one with Contact 13 connected to the circuit of the signaling device via a line 12 in the closed position or in the normal position shown in FIGS the cchnapsfeder 10 rests on a mating contact 14, which is on the boar of a tongue-shaped Koneaktträgers 15 attached and also to a portion the line 12 is connected.

The resilient contact carrier 15 is at the end of the arm of the T-shaped Chassis 3 fastened insulated and has at its opposite free end 16 has a threaded hole 17 with an adjusting screw 18, which is located on the bottom 2 of the switch housing 1 and an exact stepless setting of the trigger value the vibration switch or the snap spring device with the first contact arrangement 13, 14 allows.

On the top of the snap spring 10 is a contact weight at the same time trained stop pin 19 arranged, which is located with a button above or pin-shaped display part or display pin 20 aligned coaxially is, with an elongated contact bridge on the underside of the indicator pin 20 21 is attached, in the normal position of the switching device shown in FIGS. 2, 3 and 5 two laterally arranged contact springs 22, 23 connects, both over the line 12 is connected to the signaling device and to the contacts 13, 14 of the first contact arrangement are connected in series.

The indicator pin 20 has a round cross-section and is on the switch housing 1 arranged in a corresponding guide 24, which is also sunk in the housing can be longitudinally displaceable and rotatably guided.

The contact bridge 21 is essentially oval, so that they in the switched-on position shown in Fig. 2, 3 and 5, the two contact springs 22, 23 of this second contact arrangement under the action of a compression spring 25 which is supported on the inside of the switch housing 1, connects, but in one position 2Ca rotated by 900, as shown in phantom in FIG. 5, between the contact springs 22, 23 can be pushed down to the snap spring 10 after the switch shown in Fig. 4, the switch back to its normal position to press down.

As can also be seen in the drawing in FIGS. 4 and 5, has the indicator pin 20 has an engagement opening 26 on its upper side for an adjusting key or the like, which is such that the indicator pin 20 with the contact bridge 21 rotated and can be moved up and down in the axial direction of the indicator pin. In order to make unauthorized operation of the switching device even more difficult, the indicator pin 20 at the opening 26 also with a safety locking device or the like.

The switch operates as follows: In the mode shown in Fig. 2, 3 and 5 shown normal position of the switch are both the two contacts 13, 14 of the first contact arrangement as well as the contacts 22a, 23a of the above second contact arrangement closed. The snap spring 10 is in their slightly pushed down Normal position confirmed by confirmation the adjusting screw 18 can be adjusted so that the snap spring 10 is immaterial stands in front of the jump point.

The contact bridge 21 of the second contact arrangement 21, 22, 23 is by the compression spring 25 against the two contact springs 22, 23 so far down pressed that the display pin 20 with its upper end is not out of the switch housing respectively.

protrudes from the attached guide 24.

If a corresponding shock occurs and the switch is activated If it exceeds the set trigger value, the snap spring will snap 10 after ohen, the be: dn contacts 13, 14 of the first contact arrangement are separated, the stop pin 19 strikes against the underside of the contact bridge 21 and lifts this against the force of the spring 25 from the two contact springs 22, 23 and pushes they together with the indicator pin 20 so far up that the upper end of the indicator pin comes to light and with it the triggering of the shock switch visible on the outside.

To make the switch ready for operation again, the upper Opening 26 on the indicator pin 20, a suitable key is used with which the Indicator pin 20 and the contact bridge 21 from the contact position shown in FIG. 5 brought into position 20a rotated by 900 and shown in dash-dotted lines between the ends of the two contact springs 22, 23 with the cooperation of the spring 25 is pressed down until the snap spring 10 through the on the stop pin 19 pressure exerted has returned to its normal position of FIGS. 2 and 3 and the two contacts 13, 14 has closed again.

Since the two contact arrangements 13, 14 and 21, 22, 23 of the vibration switch are electrically connected in series in the same circuit, but this is the Signaling circuit not yet closed again. The contact bridge 21 must rather in the position 2a against the action of the spring 25 again on the Contact springs 22, 23 raised, rotated back by 90 ° to their normal position and then released again to under the pressure of the spring 25 in the in Fig. 2 and 3 to get to the position shown and also the second contact arrangement 21, 22, 23 to close again. All contacts of the switch are then closed again. The display pin 20 is sunk in the housing or in the pen guide and the The signal system is fully operational again.

By the presence of the two contact arrangements connected in series 13, 14 and 21, 22, 23 ensure that the indicator pin 20 in the depressed position, in which the contacts 13, 14, but not the contacts 22a, 23a are closed, to a triggering of the signaling device and thus to leads to a sabotage message.

The invention provides a function-proof and sabotage-proof vibration switch has been created, the power-saving and trouble-free evaluation of vibration messages enables.

Claims

Claims (7)

Claims 1. Vibration switch, in particular for one-touch alarm systems with electrical contacts arranged in a closed switch housing, a circuit to trigger a signaling device when vibrations occur interrupt, characterized in that a trained according to the snap spring principle, Normally closed first contact arrangement (13, 14) is provided, which when Reaching a certain adjustable vibration strength a previously closed Circuit interrupts, and that in the area of movement or opening of the first contact arrangement (13, 14) a second contact arrangement (21, 22, 23) is provided which opens the leg the first contact arrangement also opens and which has an indicator pin (20), which protrudes from the switch housing (1) when the circuit is interrupted and in this position is held until the circuit is closed by closing the two Contact arrangements (13, 14, 21, 22, 23) has been closed again. 2. Vibration switch according to claim 1, characterized in that that the first contact arrangement (13, 14) designed as a leaf spring, at least at one end a Ces called snap spring (10), a spring loaded snap lever or the like, which is in the closed or normal position with a contact (13) on a contact (14) on an adjustable resilient contact carrier (15) anlicgt. 3. Vibration switch according to claim 1 and 2, characterized in that that the second contact arrangement (21, 22, 23) is attached to lateral contact springs (22, 23) has elongated contact bridge (21) resting under spring pressure, which is attached to the in the switch housing (1) in the opening direction of the first contact arrangement (13, 14) led indicator pin (2cm) and which is narrower than the clear distance between the contact springs (22, 23) which can be connected by the contact bridge (21) in such a way that that the contact bridge after rotating through an angle of about 90 ° between the contact springs (22, 23) through against the first contact arrangement (13, 14) is movable to this to move back into their closed position, and after retraction to a position above the contact springs (22,23) and turn back to their previous starting position can be moved back in the closed position with the contact springs (22, 23). 4. Vibration switch according to claims 1 to 3, characterized in that that the first contact arrangement (13, 14) one against the contact bridge (21) of the second Contact arrangement (21, 22, 23) preferably coaxial to their indicator pin <20) arranged stop pin (19), which is also formed as a contact weight is and that the clear distance between the stop pin (19) and the contact bridge (21) in the 'ormalstellung (Fig. 2 and 3) about half the lifting height of the first contact arrangement (13, 14) corresponds. 5. vibration switch according to one of claims 1 to 4, characterized characterized in that the contact arrangements (13, 14, 21, 22, 23) of the vibration switch are connected in series in a common circuit. 6. vibration switch according to one of claims 1 to 5, characterized characterized in that the display pen (2al) has a round cross-section and one Adjusting device accessible from the outside of the switch housing (1) (single reef opening 26) for a forced rotation and an axial back and forth movement of the indicator pin (20) with the contact bridge (21) attached thereto. 7. Vibration switch according to claim 6, characterized in that that the adjusting device on the indicator pin (20) with a safety locking device or the like is formed.