DE1047093B - Detonator - Google Patents

Description

Detonator The invention relates to a detonator, i. H. Devices used to initiate the detonative implementation of explosive explosives or explosives.

Such detonators generally consist of a one-sided closed, drawn metal sleeve, in which either initial explosives, such as Fuming mercury, lead azide and lead trinitroresorzinate, tetrazene or the like, alone or in combination with other explosives such as tetranitromethylaniline, Trinitroto-luene, Nitropenta, Hexogen, can be pressed into it.

Depending on the above-mentioned charge structure, they are referred to as "simple" or as "combined" detonators.

The object of the invention is to design such detonators so that that they meet the various requirements of practice better than before.

According to the invention is in a detonator, consisting of a case with two hitl one behind the other: en sections, of; which the one defines a substantially conical cavity which contains a first charge during the second portion of the sleeve has a substantially cylindrical cavity with a second charge, the initial charge not significantly more than 0.1 g; The initial sentence is in a tube that is closed on one side and is partly conical and partly cylindrical excavation housed only in the conical part, whereby the cone point with a diameter of not much more than 1 mm the closed one End of tube breaks.

According to a further embodiment of the invention, the detonator should Have a primary ignition charge made from a mixture of lead azide and fumed mercury consists, which is housed in a non-metallic housing.

The preferred embodiments of the invention are presented in examples will be described in the following with reference to the figures: Fig. 1 shows schematically in Longitudinal section of a detonator according to the invention; Figures 2 and 3 show the same Detonator with attached caps of various types, suitable for receiving the Ignition device; FIG. 4 shows the detonator according to FIG. 1 with a percussion fuse; 5 and 6 show detonators according to FIG. 1 with different delay devices Size.

In Fig. 1 the detonator shape is for military use shown.

It consists of a short sleeve 1 open on one side, the bottom of which is provided with a hole 2. Starting from the bottom 3, the inner one expands Diameter of the sleeve in a conical shape, as seen at 4, and ends after the open end in a cylindrical design 5. The outside forms the sleeve at the bottom end a slight cone 6 of small height. An inner cap is not used. The initial charge is designated by 12.

Fig. 2 shows the detonator for civil use.

The detonator according to Fig. 1 is provided with a push-on sleeve or tube 7 provided, which pushes over the bottom end of the sleeves, outside, and connects both parts firmly and tightly.

This push-on sleeve can be made of any suitable metal or non-metallic materials, including cardboard or rubber be.

In the cavity of the push-on sleeve is either the fuse or the electric detonator introduced as needed prior to detonation.

With a metallic design of the push-on sleeve, as is preferred is used in ore or non-firedamp-endangered mining, the fuse introduced and fixed by strangling the sleeve in the known design with the capsule tied together.

In firedamp-endangered pits, the electrical one is used without exception Ignition used, for which a non-metallic push-on sleeve for the introduction of the electric igniter can be used on site.

Fig. 3 shows the design of the non-metallic push-on sleeve 8, the bottom of which is closed until use, which means that it also functions as a protective sleeve serves against atmospheric influences on the capsule.

For use, the bottom of the push-on sleeve is gently pressed on the predetermined and with much thinner wall executed Pushed in place and inserted the detonator provided into the hole 9: - -through the use of a rubber seal or execution of the push-on sleeve in rubber or other waterproof material can be used to detonate the detonator after the ignition can also be used as an underwater capsule.

Fig.4 shows the detonator, set up for impact ignition by Insertion of a scabbard primer 10 into the push-on sleeve B.

In Figure 5, the combination is as a delay or time ignition capsule reproduced by installing the delay tube 11 in the push-on sleeve B.

Due to the fact that several push-on sleeves can be plugged onto one another, As shown in FIG. 6, by connecting several delay tubes 11 achieve any desired ignition delay time.

This makes it clear that the object can be used universally of the present invention demonstrated on some examples of use without that the claim is hereby limited to these examples.

In contrast to previous detonator production, the detonator according to the present invention first the "primary charge" 12, consisting of the Initial explosives or their mixtures, in a normal loading machine into the The case is loaded and then pressed in normal presses under the appropriate pressure.

Then the remaining free space of the capsule is in the loading spoon in a suitable device with .einer appropriate casting mixture of explosive Explosives such as trinitrotoluene, tetranitromethylaniline, nitropenta, hexogen od. Ä., Filled, whereby the primary charge 12 after solidification of the secondary charge 13 completely defined, without the use of an inner cone.

The secondary charge 13 itself forms the sleeve at the open end thereof Closure with which she: firmly connects, without the risk of loosening or falling out.

In addition, the secondary charge 13 can also be in the form of a pre-formed or plastic explosive body into the free space of the case by light Pressure can be used.

After all, this is also the normal way of the previous production of Detonators by pressing the secondary charge for the detonator according to the invention intended.

If, for special reasons, you continue to oppose the detonator If you want to protect against external influence, you can do this by dipping or spraying with a suitable Protective layer can be completely or partially covered.

The initial charge 12 is advantageously made from a mixture of Formed lead azide and fiery mercury. In order to prevent this primary mixture the sleeve 1 engages, this can be made of a non-metallic material are, for example 1. thermoplastic, by pressing in block or strand form, plastics deformable by injection, mechanical processing or molding, which show no chemical reaction with the cargo and sufficient mechanical strength for the manufacture, use and explosive implementation of the capsule, such as polymerization and condensation products based on styrene, Phenol, urea, maleic acid, acrylic and methacrylic acid, vinyl compounds as Alcohols, esters, ethers or halogen compounds alone or in combination among and with aldehydes of any type, including ketones. aside from that Cellulose ester or ether, also in connection with gelatinizing or plasticizing Substances, including explosive oils, as well as condensation or polymerization products of rubber or natural and synthetic resins. These substances can be used for combined with other substances such as fillers based on wood, paper, Textiles and dyes are used; 2. ceramic products, such as B. porcelain., Glass or other, which by pressing, casting, spraying, sintering or mechanical processing can be deformed.

The significant reduction in the primary charge in the detonator after the present invention is based on the fact that e.g. B. suitable mixtures of fumed mercury and lead nitride in much smaller quantities to the full "Detonation" started and exercised more explosiveness than the components capital.

So it is sufficient, compared to the previous detonators, which the Explosives always have to be used separately, in the case of the detonator according to the invention already a tiny fraction to achieve the same blasting effect as it was before was the case with much larger loads. In the detonator according to the present Invention can therefore - while taking advantage of those described below Knowledge - about the form of the structure, the so-called "limit charge" at full Safety of function can be used practically.

Since in the detonator according to the present invention, the secondary charge no longer needs to be condensed under the press, as it has been with the previous ones Detonators is the case, of course, the press is saved.

In terms of time and output, this is the profit associated with this much greater than 50%, as calculated from the machine alone, since the Secondary charge of the detonator according to the present invention in much shorter Time and can be brought in with simpler devices than before the detonators is the case.

As mentioned at the beginning, the number of is in the loading bucket at the same time compressed capsules by the maximum weight of the accumulated explosives under the Press limited.

According to the previous procedure, the secondary and primary charges are also in a much larger individual weight, at the same time in the pressing.

In the case of the detonator according to the present invention, however, it is only the primary charge, and in a much smaller amount compared to the previous ones Detonators.

If you also take into account that the risk of friction, such as it previously existed when the inner cone was pressed in, but is completely eliminated in the case of the detonator according to the present invention, so, one can see from this a picture of the substantial increase in the number of capsules during a compression, d. H. increase production with the same machines and reduce costs, without creating a risk or increasing the risk compared to the previous one Detonator production occurs. About a six-fold increase in The number of capsules and the increase in production can be achieved with the detonator according to the invention can be taken as a basis in this regard without further ado.

This proves that in addition to simplification and considerable Improving the economy of the process also reducing the risk over the previously used method by applying the present invention can be achieved, what with this per se dangerous manufacturing and safety requirements subject to manufacturing is particularly important and thus an essential one Represents advancement in technology.

The effects and advantages of the detonator according to the present invention compared to the previous detonators is explained in the following way: After the Ignition of a tiny part of the initial charge, which is caused by a jet of flame or spark is initiated through the bottom opening of the capsule, the detonative begins Decomposition of the lead azide with the fastest increase to the maximum value.

This makes the more sluggish and slower fulcrum mercury extra ignited and significantly faster to its maximum value of the detonation velocity "Started up" when this would be the case without the lead azide.

However, due to its higher energy content, it is superior to mercury the lead azide, making the detonator according to the present invention by use the mixture of the two initial explosives with a much smaller amount of explosives the effect achieved, as the previous detonators with significantly increased Initial explosives weight can only reach, and thus significantly inferior to it are.

The knowledge of the influence was added to this fact the form.

By the inner shape of the sleeve shown in Fig. 1, the one has a widening diameter from the bottom to the opening, will - despite significant weight reduction of the initial explosives - their height and charging station which is one of the most essential prerequisites for taking full advantage of the described advantage and safe function of the detonator according to the present Invention represents.

The described manufacturing method of the detonator according to the present Invention requires the state of highest density for their secondary charge, which is at the previous detonators cannot be reached.

Thus, the detonator according to the present invention achieves the highest Detonation speed or explosiveness, d. H. an ignition effect similar to the previous ones Detonators can only be achieved by using much larger amounts of weight can.

The table below shows examples of previously used detonators compared to the new detonator according to the invention. Detonator No. 8 Detonator (Copper) I ( aluminum) according to the invention Hull weight. . . . . . . . . . . . . . . . . . . . . . . 2.10 g I 0.70 g (0.80 g Weight of initial explosives. . . . . . . . . . . 0.45 g 0.35 to 0.40 g 0.10 g Weight of secondary explosives ....... . 0.75 to 0.80 g 0.75 to 0.80 g 0.55 to 0.65 g Total detonator weight. . . . . . . . . 3.30 to 3.35 g I 1.80 to 1.90 g I 1.45 to 1.55 g The detonator according to the present invention has no further base apart from the base 3, in contrast to the previous detonators; thus the detonation shock of the capsule comes directly onto the explosive body, which is to be detonated with it, without the slightest weakening. This of course also ensures a significantly better utilization of the energy of the detonator according to the present invention compared to previous detonators.

All these advantages and utilization of all possibilities in the construction and making detonators make the detonator according to the present invention Invention besides its universal applicability to the most effective and smallest Unity of their class and accordingly bring economic advantages to you so far could not achieve.

If you take into account on the basis of the above that in the detonator according to the present invention raw materials are used for the sleeve are always available in sufficient quantities and at significantly lower rates Price and processing costs are to be had, significantly lower amounts of material are required for higher performance, the production output of capsules is multiplied With a low number of machines, significant labor can be saved can, reducing the risk of the manufacturing process has been achieved, and the same capsule can be used for practically all possible applications, so it is necessary to prove the higher economic efficiency of the detonator of the present invention compared to all other previous detonators further explanations.

The use of the detonator according to the present invention provides so. not just a significant technical advance compared to the state technology, but also offers economic advantages and savings opportunities on national values that cannot be made on the previous one Ways of detonator manufacturing can achieve.

Claims (4)

PATENT CLAIMS: 1. Detonator, consisting of a sleeve with two one behind the other, one of which is essentially conical Bounded cavity, which contains a first charge, while the second section of the Sleeve has a substantially cylindrical cavity with a second charge, characterized in that the initial sentence filling is not significantly more than 0.1 g and that the initial sentence is in a closed on one side Tubes with partly conical and partly cylindrical bore only in the conical one Part is housed, the cone tip with a diameter of not significant more than 1 mm breaks through the closed end of the tube. 2. Detonator according to claim 1, characterized in that the primary charge consists of a mixture of lead azide and fumed mercury is formed. 3. Detonator according to claim 1 and / or 2, characterized in that the sleeve for receiving the initial and secondary sentence consists of non-metallic material. 4. Detonator according to claim 1 and / or following, characterized in that the outer shell of the conically hollowed out Part of the sleeve for placing replaceable ignition elements is slightly conical is. Considered publications: German patent specifications No. 108 708, 422 523, 551491, 715101; U.S. Patent No. 2,415,045.