DE3112669A1 - SWITCH CLOCK - Google Patents

Abstract

1. Time switch mechanism for the time-delayed triggering of a switching device, more especially for making explosive charges live, wherein the switching process is delayed by the constant rotation of an initially-tensioned toothed disc (13), which co-operates with a retard mechanism, through a predetermined angle of rotation at a predetermined angular velocity about a shaft (12) mounted in plates (10, 11) or in a plate (11) and is triggered once this angle of rotation has been traversed, wherein the toothed disc (13) has safety components associated therewith which block the toothed disc if the retard mechanism fails, characterized in that the safety elements contain a safety cam (16, 26) which is guided in guide grooves (20, 21, 27) in the plates (10, 11) or in a plate (11), said cam engaging in a carrier recess (17, 28) in the toothed disc (13) and being actuated by an external force in a substantially radial direction relative to the toothed disc (13), and in that the guide grooves (20, 21, 27) comprise a first portion, which extends substantially tangentially or in a circumferential direction relative to the toothed disc (13) over a predetermined angular portion (alpha, vtheta) of the predetermined angle of rotation (beta) and overlaps the carrier recess (17, 28) in the toothed cam, and a second portion which extends therefrom in a substantially radial direction, thereby resulting in the guide grooves (20, 21, 27) extending in a T-shaped or hook-like manner so that, during satisfactory operation, the safety cam is displaced into the radial portion of the guide grooves as a result of the external force after said cam has passed the first portion of the guide grooves (20, 21, 27) and thereby releases the toothed disc (13), whereas, in the event of a malfunction, the safety cam is securely clamped by the rapid full-rotation of the toothed disc (13) between the end of the first portion of the guide grooves and the carrier recess (17, 28) and blocks the toothed disc (13).

Description

DR. FRIEDRICH MAVER Authorized representative before the European Patent Office

^. . *. , ^ s ~ ! -! -. AKisy Professional Representatives before the European Pat. Office

DIPL. "" PHYS. Q. FRANK Mandataires agrees pres rOffice europoen des brevets

PATENT LAWYERS

Uhrfabrik STOWA GmbH., Walter Storz, 7888 Bheinfelden

Time switch mechanism

The invention relates to a time switch mechanism for the delayed triggering of a switching device, in particular for arming explosive devices, in which the switching process occurs
constant rotation of a pretensioned toothed pulley by a specified angle of rotation · is delayed around a shaft at a specified angular speed and is triggered after passing through this angle of rotation.

Sin such a time switch mechanism is from DE-OS 28 03 713
known. This known time switch mechanism has a simple but robust mechanism that can withstand severe shock loads. The technical principle of this known time switch mechanism is to have a certain period of time between the start of a clock mechanism and its expiry until the explosive device is activated. A toothed disc is used for this purpose, which meshes over part of its circumference with another gearwheel, which in turn is connected to a Eüttelanker via a gear. Another part of the circumference of the toothed disk is not provided with teeth. This toothed washer is in

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Direction of rotation preloaded, go that he eh. Passing through the toothed area of the toothed disc which disengages from the rest of the gear train and the spring ensures that the toothed disc is extremely over the largest, 1 part of its remaining, non-toothed circumference quickly spins and thereby mechanically carries out a triggering process by means of which the explosive device is armed.

The use of such a switching clockwork means that, for example, a mine with a timer mechanism is thrown from moving trucks. It is therefore necessary to ensure that on no jail - for example, as a result of damage to the gearwheels or axle journals immediately after the explosive device or mine has been thrown off - the toothed disc can already spin quickly and sharpen the explosive device, as the following may occur Jalirseuge are already endangered. As a result of the robust design of the known time switch mechanism, the probability of such incidents is in the order of magnitude of 10 '. In view of the difficult operating conditions, however, any residual risk for the operating team must be eliminated as far as possible.

It is therefore the object of the invention to develop such a switching agitator in such a way that the mine can at least be armed is impossible for a safety period after their laying.

This object is achieved by the invention in that on the circumferential area arranged the pretensioned toothed lock washer locking elements which block the toothed disc if, when passing through a specified part of the specified angle of rotation (toothing the toothed disk) the angular speed of the toothed disk is extremely above the specified value.

The invention therefore provides additional elements that respond to a sudden change in the angular velocity of the tooth

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because of the breakage of a gear, for example, respond in the initial period after switching on the clockwork, block the further movement of the toothed washer and thus prevent the explosive device from arming.

In a time switch mechanism that is known as the one described above .Schaltuhrwerk has two plates, between which the toothed disc rotates, provides an embodiment of the invention Principle before that the securing elements contain a locking pin, which is in the guide grooves of the boards is guided, engages in a driver recess of the toothed disc and by an external force in a substantially radial Direction is pulled away from the toothed disc, and that the guide groove s from a substantially tangential or in the circumferential direction running to the toothed disc over the specified angle part and their driver recess overlapping first part and one thereof in a substantially radial direction outwardly extending second part, whereby a T-like or hook-like course of the! guide grooves is created, so that with proper function of the locking pin from the external force after passing the first part of the Guide grooves from the driver recess in the second part the guide grooves are pulled, whereas in the event of a malfunction the locking pin is pressed by the rapid rotation of the toothed washer at the end of the first part of the guide grooves that Driver recess does not release and the pulley blocks

This mechanical configuration of the securing elements is based on the "competition" between the bias of the toothed disc by means of the mainspring on the one hand and the external force that wants to pull the locking pin away from the pulley. If the locking pin reaches the second part of the guide grooves after the additional locking period has expired, it hangs on the speed of the toothed disc or the driver recess leading the locking pin, whether the external force pull the locking pin into the second part of the guide groove

3112653

can (as a rule) or whether, due to the constant speed of the continuous toothed pulley, in the event of a malfunction, the locking pin 16 passes the second part of the guide groove so quickly that it can no longer be ^{pulled into it, but strikes at the end of the first rope of the 5 1} UhTUHgSnUt and the Toothed lock washer blocked.

Further refinements of the invention are further subclaims refer to.

An embodiment of the time switch mechanism according to the invention will now be explained in more detail with reference to drawings. Show it:

Figure 1 shows a cross section through part of the time switch mechanism with the safety elements according to the invention,

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2-4 top views of the timer mechanism according to the invention with different positions of the securing elements.

The time switch mechanism includes an upper plate 10 and a lower plate 11, between which a shaft 12 and a bushing 14 are guided, which on the one hand carry the toothed disk 13 and on the other hand is pretensioned by means of a mainspring 15 in the direction of the arrow in FIGS. 2-4. The toothed disk 13 is partially provided with teeth on the circumference, which insulate with the teeth of a further gear wheel 24, which in turn meshes with further gear wheels forming a reduction gear. The last link of this reduction chain is a vibrating armature 25Depending on the frequency of the vibrating armature and the translation or reduction of the gear drive, the toothed disk 13 rotates at a predetermined angular speed as long as the teeth arranged on the circumference are in mesh with the teeth of the toothed wheel 24, that is, until the toothed disk 13 has rotated through the angle β. To

Passing through the angle β ! Ceases the toothing of the toothed disk 13 at the beginning and the! Mainspring 15 rotates the toothed disk 13 at high angular speed around most of its remaining circumference.

The basic idea of the invention now consists in a. Initial period after starting the clockwork, i.e. to provide additional safety elements for a rotation of the toothed disk 13 by an angle oL, which prevents the toothed disk 13 from suddenly spinning and thus arming the explosive even in the event of damage to the gearbox.

The securing elements used to implement this concept consist of a securing pin 16 which is held in two guide grooves 20, 21 milled congruently into the two plates 10 and 11. With regard to the toothed disk 13, this locking pin 16 is positioned in such a way that it engages in a driver recess 17 on the circumference of the toothed disk 13. The two congruent guide grooves 20, 21 are positioned so that they extend tangentially or in the circumferential direction over the edge region of the toothed disk 13 with a first part, and that they reach out with a second part over the circumferential region of the toothed disk 13, the second Part of the guide grooves 20, 21 extends essentially radially outward with respect to the toothed disk 13. Tests have shown that, for the securing elements to function properly, it is advantageous if the first part and the second part of the guide grooves enclose an angle γ of approximately 70 ° with one another.

A pin 19 is also fastened between the two plates 10 and 11, and a spring 18 is tensioned between the pin 19 and the locking pin 16, which consequently essentially has a with respect to the toothed disc 13 exerts a force extending radially outward. It is advantageous if the direction

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the force exerted by the spring 18 forms an angle O with the connecting line between the center of the Zansclieibe 13 and your locking pin 16 such that when the toothed washer 13 is rotated in the direction of the arrow, a restoring force arises which pushes the locking pin 16 against the plank opposite to the direction of rotation the driver recess 17 presses. The direction of the force F of the spring 18 thus consists of a radial component and a tangential component.

To? proper guidance of the locking pin has this shoulders 22 and 23, with the help of which it is on the top the lower plate 11 or the underside of the upper plate 10 slides along. For reasons of installation, it is through the guide groove 20 stepping part of the locking pin 16 is extended upwards so that it protrudes beyond the upper plate 10.

The puncture of the securing elements according to the invention is now explained with reference to FIGS. 2-4 in particular.

Figure 2 shows the starting position of the timer mechanism. This can be seen from the fact that the beginning of the toothed angular range β of the toothed disk 13 is currently in engagement with the gear 24, that is, the clockwork is just starting to run.

The locking pin is in this starting position 16 at the beginning of the first, tangentially extending part of the guide grooves 20 and 21; after Beginning of the rotation of the toothed disk 13, the locking pin 16 is removed from the rear edge of the driver " Detected recess 17 and along the first part of the Guide groove 20, 21 shifted until it reaches the angle o <. has gone through.

There are basically two ways to do this: either "straight ahead" into the end of the tang

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tially extending first part of the guide grooves or essentially radially outwards, drawn by the force of the spring 18, into the end of the second! part of the guide groove 20, 21.

In the normal case, that is, when the toothed disk 13 rotates slowly according to the characteristic data of the clockwork and the reduction ratio, the case shown in FIG Guide grooves 20, 21 drawn in up to their end and thus pulled out of the driver recess 17 of the toothed disk 13. If this is the case, the security elements have fulfilled their task; and the toothed disk 13 continues to rotate over the remainder of the selected rotation angle fi until the triggering time. This will occur in the overwhelming majority of all application cases of the time switch mechanism.

For the unlikely but never entirely ruled out case of a material defect in the movement however, are the securing elements according to the invention significant:

In Figure 4- this is possible damage from a peripheral side Damage to the pulley 13 in the initial area the circumferential toothing, i.e. shortly after the start of the clockwork, that is, again, before it passes through of the safety bracket (A. Shown. As this results in the coupling of the toothed disc 13 with the clockwork is canceled, the speed increases suddenly under the action of the mainspring 15 the toothed washer 13. This has the consequence that the

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The locking pin 16 has no time to be pulled by the spring 18 into the second part of the guide groove 20, 21 to be, but that he, out of the rear edge of the driver recess 17 / in the end of the first, tangential part of the guide grooves is pressed. Since he has the driver recess in this position 17 cannot leave, the rotational movement of the toothed disk 13 is accordingly blocked. Of the Errors that have occurred cannot therefore lead to premature arming of the explosive device.

It goes without saying that the spring constant of the spring must be chosen such that, with proper rotation of the Toothed disk 13 with a very low angular speed of the locking pin 16 is pulled securely into the second part of the guide groove can be, but must not be chosen so high that even with rapid spinning of the toothed disk 13 as a result of a Defect the locking pin 16 can still slide into this second part.

Claims (1)

3112663 Claims Time-delay mechanism for the delayed triggering of a switching device, in particular for arming explosive devices, in which the switching process is delayed around a shaft by constant rotation of a pretensioned toothed pulley by a predetermined angle of rotation at a predetermined angular speed and is triggered after passing through this angle of rotation, characterized in that the Toothed disk (13) securing elements (16-21) are arranged which block the toothed disk (13) when the angular speed of the toothed disk (13) is significantly above the specified value when passing through a specified part (J) of the specified angle of rotation (^). 2. Time switch mechanism according to claim 1, in which the toothed washer is located between two plates receiving the shaft, characterized in that the securing elements have a 3112663 Include locking pin (16), which is guided in guide grooves (£ 0, 21) in the plates (10, 11), engages in a driver recess (17) and toothed washer (13) and by an external force (F) in substantially radial direction is pulled away from the toothed disk (13) and that the guide grooves (20, 21) from a substantially tangential or in the circumferential direction to the toothed disk (13) over the predetermined angular part [ο *>) and its driver recess (17) overlapping first rope and a second part extending essentially in the radial direction outward therefrom, with a T-like or hook-like course of the guide grooves (20, 21) so that the securing pin (16) from the outer Force (F) is drawn from the driver recess (17) into the second part of the guide grooves after passing the first part of the guide grooves (20, 21), whereas in the event of a malfunction, the locking pin (16) is pulled by the fast major turning the toothed disk (13) is pressed against the end of the first part of the guide grooves, does not release the driver recess (17) and blocks the toothed disk (13). 3. Time switch mechanism according to claim 2, characterized in that the external force (F) is generated by a spring (18) is fixed between the locking pin (16) and a. between the plates (10, 11) seated pin is stretched. 4. Time switch mechanism according to claim 2, characterized in that that the locking pin (16) as a contact surface on the two plates (10, 11) disc-shaped shoulders (22, 23) having. 5 · Time switch mechanism according to claim 2, characterized in that that the first part and the second part of the guide grooves (20, 21) form an angle (c>) of approximately 70 ° with one another. ;: _; -. .. 31 1 2GoJ -V- 5. Time switch mechanism after. Claim. 1, characterized in that the predetermined rope angle (oC) of the total angle of rotation (ß) approx. 30 °. 7 · Time switch mechanism according to claim 2, characterized in that that the width of the driver recess (17) only is slightly above the diameter of the locking pin (16). 8. Time switch mechanism according to claim 2, characterized in that the locking pin (16) over the upper board (10) protrudes. 9. Time switch mechanism according to claim 2, characterized in that the line of action of the force (F) of the peder (18) with the connecting line between the center of the toothed disc (13) and the locking pin (16) forms an angle [S) such that a force component on the locking pin (16) against the direction of rotation of the toothed disc (13).