DE318029C - - Google Patents

Description

ISSUED ON JANUARY 9, 1920

The invention relates to electric detonators for projectiles and the like can be brought into effect from any direction. In the case of percussion fuses, it is already known to bring about the ignition a positively guided impact or sliding body to use, which is arranged in contact with an impact elastic body and through this at one from any direction

ίο thrown impact against a primer will. Furthermore, responsive to impact in a substantially axial direction, electric projectile detonators are known in which a positively guided, axially displaceable contact body with stationary or resilient Counter contacts should work together. All of these known bodies are for the Purposes of the invention are not readily suitable. Fixed and rigid mating contacts initially have the disadvantage that the contacts are only touched for a very short time, if the shock is not carried out with extreme force and persistence. You are suitable therefore not for those purposes in which a contact closure also through less violent impacts of such duration as that required for the heating of the ignition incandescent filaments (for example in mines) is required. , Simple, as a contact body trained sliding bodies are not suitable because they are less powerful and shocks that are not sufficient for ignition gradually approach the mating contacts can, so that with projectiles that hit soft ground, easily dangerous duds occur that ignite with slight, subsequent impacts. The detonators, which are provided with a resiliently guided, axially displaceable contact body, have the disadvantage that if the impact does not take place in the axial direction, the contact body gets into lateral oscillation and the mating contact is slightly missed, so that even with otherwise sufficiently strong impacts the ignition does not take place. For mines there are such Detonator not usable at all.

The invention avoids all of the disadvantages mentioned. This is because of this achieved that a known manner in contact with shock-elastic bodies, inevitably guided contact body is resiliently mounted and its mating contact is designed and arranged elastically so that that when the contact body hits, it moves against the spring force the same predominant elastic force takes part, so that the contact duration also at less violent impacts is extended and the contact member if ignition does not take place returns to the normal position. The mating contact can also be designed to be elastic and be arranged that he is in a known manner as a sliding or clamping contact works. For other purposes, for example serving as display devices, on push appealing contact devices, the arrangement is in the same direction movable, elastic stored contact members are already known, but so far a Extension of the contact time cannot be achieved because you are doing this on the required different dimensioning of the elastic

Counterforce of the individual contact members has not taken any consideration. According to the invention however, an extension of the contact closure is achieved in all cases. Because in the former case the elastic Counterforce of the second contact member is greater than that spring force, which the displacement counteracts the contact member in contact with the shock-elastic bodies, this can result in premature tearing off of the contact by the said counteracting Spring force does not take place, especially since the second contact is also on his first Still accompanied on the way back. In the second case, the elastic friction causes a delay the contact opening.

In the drawing, two exemplary embodiments of the invention are shown in an axial center section shown.

Fig. Ι shows an embodiment with an elastically displaceable mating contact, and

Fig. 2 one with a resilient clamping. Contact.

In both embodiments, α is in a box provided with a bottom. Very hard material housed two steel balls b , the diameter of which is smaller than the liner diameter, but larger than half the diameter of the liner, so that they come to lie on different sides of the longitudinal axis of the liner and only one of them touches the bottom of the container. The socket a is closed by a cover c , designed in the manner of a threaded plug, which consists of electrically conductive material and to which a power cable d is connected. A piston-like contact body e is slidably mounted in the cover, the lower end of which is tapered in the manner of a pin and is held in contact with one of the steel balls b by a spring f which is mounted in a recess in the cover and rests against the body β. The upper part of the contact body e, which is tapered in the same way, is guided in the cover c and, in the rest position shown, extends approximately to the upper end of the cover. The piston stroke is limited at the bottom by the ring g.

According to FIG. 1, a bushing h made of insulating material, which is likewise designed in the manner of a threaded plug, is axially screwed to the cover c, and with this a similarly designed bushing * made of electrically conductive material. In the last-mentioned bushing, a piston-like contact body k , which holds the body contact, is slidably mounted, the stroke of which is limited by the base I of the bushing on the side facing the aforementioned contact body e. On the other hand, the stroke of this Kentakt body is limited by a threaded plug m screwed into the bushing made of electrically conductive material, which at the same time acts as a pole terminal of the second power cable η dii and has an axial bore in which the upper, peg-like tapered part of the contact body k is guided is. The latter, like the contact body e, is under the influence of a spring 0, which rests on the one hand against the threaded plug m and on the other hand against the shoulder of the piston k and tends to constantly push the contact body in the direction of the contact body e. Contact devices of similar design are known per se. According to the invention, however, the spring 0 is held stronger than the spring f, so that its spring force outweighs that of the last-mentioned spring even when the contact bodies touch.

If the steel balls b return to their original shape after an impact, the contact body e is displaced against the low spring force /, strikes against the contact body k and pushes it in front of it, overcoming the greater spring force 0. A premature breaking of the contact is avoided in this way, and by a suitable choice of the springs it is possible to regulate the duration of the contact closure and the creation of the same according to a minimum impact force.

According to FIG. 2, a threaded plug φ made of electrically conductive material, which forms the pole terminal of the power cable η, is screwed into the bushing h made of insulating material and screwed to the cover c. Resilient contact lamellas q are attached to this, between which the contact body e pushes in like a plug when it is moved by the steel balls b , so that a friction or clamping contact is created, the duration and formation of which can be regulated by a suitable choice of the spring f . In this embodiment, the cover c can also be omitted entirely and only one cover made of insulating material can be used, which serves to guide an insulated contact member and on which the respective. Contact lamellas connected to a special pole terminal are fastened isolated from one another. In this case, the axially displaceable contact member can also be designed in two parts so that the part that comes between the contact blades remains when the remaining part returns to the starting position and establishes permanent contact.

Claims (1)

Patent claim: Electric bullet detonator that responds to impact at any point of impact, characterized in that an in itself known way in contact with shock-elastic bodies (steel balls) (δ) arranged, forcibly guided sliding body (e) is designed as a resilient contact body and its counter-contact (k) is elastically mounted or designed so that it counteracts its movement when the sliding body hits one of the elastic force of the same predominating elastic, possibly controllable force, takes part, or acts as a sliding or clamping contact (q) , so that the contact time is extended even with less violent impacts, while if there is no ignition, the resilient contact body (e) into the Normal position returns. 1 sheet of drawings.