DE3248014C2 - - Google Patents

Description

The invention relates to a closure unit specified in the preamble of claim 1.

Propellant lighter for ammunition, especially for medium and large caliber ammunition, have a primary ignition on an electrical and / or mechanical basis on. For ammunition with a high proportion of propellant the propellant charge within a relatively large distance ignite as evenly as possible in the middle of the cargo area, the propellant charges are tubular or sleeve-like educated. This is particularly the case with bulk powder Propellant lighter with one in the powder chamber axially protruding guide tube, the radial and axial Has blow-out openings for the fumes indoor ballistics that meet the requirements to reach.

These blowouts of the propellant lighter must be so closed that when it is triggered they be released casually, but before the closure Environmental requirements such as shock loads, water  tightness etc. withstands perfectly. As in the Practice has shown that this is the case with at least one axial discharge opening at the front end of the propellant charge lighter not always given. During the functional sequence he follows in part an uneven opening, and indeed when the closure is provided with predetermined breaking lines is. This will change the flow behavior of the ignition swath disturbed and the "axial" ignition energy more or less diminished, which in turn the uniformity of the internal ballistic process of ignition and implementation the powder charge changed.

In a propellant charge lighter according to DE-AS 25 04 906 is an inside in the outer sleeve open at the front end sleeve with closed bottom, which is under the pressure of the fumes from the reinforcement load opens to the front, with an additional statement the front end of the outer sleeve with a wedge shaped expansion ring is effected. There is none in the lighter Guide tube available. It is also in front of the floor no free installation space available, so despite the star embossing the opening is not always clear enough, the flow of the fumes to ignite the preceding one Powder disturbed, the axial ignition energy reduced and the evenness of the ballistic process ver can be changed.

The ignition device described in DE-OS 25 53 717 is a propellant charge lighter for particularly long propellants charges designed. This has an axial guide tube with radial openings from which the ignition vapor emerge from the side. At the front end is the guide tube with completed with a plug.

The invention has for its object a closure Unit specified in the preamble of claim 1 Kind for the front end of propellant lighters like that  train that on the one hand the required environmental the propellant lighter is guaranteed on the other hand, however, the at least one axial Free the opening during the ignition function sequence will give that the fumes come out unhindered can.

This object is achieved according to the Characteristic of claim 1. The membrane-like cover itself and its connection to the support ring are from the Strength ago designed so that under the pressure the cloud of ignition tears open the cover, but doing so still connected with its edge to the support ring remains, with the parts of the cover controlled by the Inner edge of the support ring in the cavity of the closure Unfold the unit without opening the openings to come to the plant. Here it has turned out to be special proven advantageous to cover with predetermined Predetermined breaking points, for example in the form of a break known star embossing.  

The cover is preferably made of metal, in particular made of brass or aluminum, but can also for example be made of plastic. Their thickness is accordingly the aforementioned strength requirements as a rule between about 0.5 and 1.0 mm. The radial width of the Contact surface of the support ring should be between about 0.5 and 2.5 mm or should be the one to be broken open Area of the cover generally not less than be about 80% of the total area of the cover.

The cover can be put on the support ring for example soldering, welding or using a union nut with its edge firmly and tightly clamped. In expedient embodiment of the invention is preferred however, the training provided according to claim 2. By this cap-shaped cover is a very simple ver binding with the support ring on its outer surface especially possible by soldering.

Training after has proven to be particularly advantageous Claim 3 proved, at the same time as the soldering connection between support ring and cover cap one more or less filling the ring gutter with solder and so that an even better seal is achieved.

The invention is in execution in the drawing play shown on an enlarged scale and is based on this is explained below. It shows in enlarged presentation

Fig. 1 shows a half section through a sealing unit with, for example, four blow-out openings,

Fig. 2 shows a variant of this, also in half and

Fig. 3 shows the detail X of Fig. 1 on an even larger scale.

Referring to FIG. 1, the closure unit 1 is provided as a locking screw with the thread 2 is formed, which are screwed to the front end of a not shown Treibladungsanzünder- guide tube that their openings 3 for the axial discharge of the Anzündschwaden the powder chamber and their membrane-like cover 4 which Inside of the guide tube are turned. Instead of a screw connection, however, a flare or adhesive connection could also be provided between the closure unit and the propellant charge lighter, for example. The cover 4 lies against the end face of the cylindrical support ring 5 integrally formed at the rear end of the closure unit and engages with its edge 6 the outer jacket surface. This cap-shaped cover 4 is firmly and tightly connected to the support ring 5 by the solder 7 , which simultaneously fills the groove 8 (see FIG. 3) between the support ring 5 and the further cylindrical ring 9 . Between the openings 3 and the cover 4 , the inner cavity 10 of the closure unit is formed, the axial depth of which is dimensioned such that the cover 4 can open under pressure without coming into contact with the openings 3 .

In the variant shown in FIG. 2, in deviation from FIG. 1, only a single opening 11 is provided for the axial blowing out of the ignition vapor. The number and the cross-section of these openings depend on the propellant charge powder and its desired ignition course with regard to the required internal ballistic performance. Thus, the internal pressure in the propellant lighter guide tube and the amount per unit of time as well as the flow rate of the ignition vapors emerging from the guide tube can be controlled via the number and the total cross section of the openings. The cross section of the individual openings is still to be chosen so small that no parts of the propellant charge enter the cavity of the closure unit and, under certain circumstances, could impair the re-producible tearing and folding of the cover.

In Fig. 3, the fixation and sealing of the cap-shaped cover 4 on the outer surface of the support ring 5 with the help of the groove 8 more or less filling solder 7 can be seen again more clearly.

The closure unit according to the invention ensures on the one hand the required environmental resistance, but on the other hand also the ignition power required in individual cases as a result of the support ring 5 , the inner edge 12 of which lies against the cover 4 , a controlled opening of the cover hood and uniform folding of the base, for example due to star-shaped predetermined breaking notches in the hood resulting quasi-triangular parts of the bottom in the inner cavity 10 of the closure unit as well as applying to the wall thereof without parts being torn off and possibly the exhaust openings could become more or less clogged. This means that the fumes can enter the propellant charge undisturbed in the axial direction. The known difficulties with regard to tight tolerances in the predetermined breaking embossing of the relatively thin-walled cover are eliminated by the support ring according to the invention, so that the required double function of the cover hood - resistant and tight against environmental influences, but flawless bursting when the propellant lighter is triggered - is guaranteed.

Claims (3)

1. closure unit for propellant lighter, which is arranged at the projectile end of the propellant lighter and has a membrane-like cover, which tears open the propellant charge lighter under the pressure effect of the igniter, characterized in that the propellant charge igniter has an axial guide tube at the end of the projectile Closure unit ( 1 ) is arranged on, which has at least one opening ( 3, 11 ) at its projectile end and is closed at its opposite end with the cover ( 4 ), with the opening ( 3, 11 ) and cover ( 4th ) there is a cavity ( 10 ), the axial extent of which is dimensioned such that the cover ( 4 ) tears open under pressure without coming into contact with the opening ( 3, 11 ), and that the closure unit ( 1 ) is in one piece molded cylindrical support ring ( 5 ), on the end face of the cover ( 4 ). 2. Closure unit according to claim 1, characterized in that the cover ( 4 ) is provided at its edge with a cylindrical collar ( 6 ), which wel overlaps the support ring ( 5 ) on the outside and is connected thereto. 3. Closure unit according to claim 2, characterized in that the support ring ( 5 ) is surrounded by a further cylindrical ring ( 9 ), between which an annular groove ( 8 ) is formed, in which the cover ( 4 ) with its collar ( 6 ) engages and is fixed in this.