DE2051881A1 - Acceleration sensitive battery - Google Patents

Description

Dipl.-Ing. HORST AUER z.phn. 4646 ,

Pc -: -; r. * Cir.v. ". :: i Va / RV.

Applicant: U. V. PH. J ₁ -y GLOciLAMPENFABRIEKEN

File: PHN- 4646
Registration from October 1st, 1970 '

Acceleration sensitive battery

The invention relates to a battery that is activated by acceleration and is used in ignition tubes for rotating projectiles are suitable, which battery contains a capsule for an electrolyte within a central space and axially arranged cell plates outside the mentioned central space, which plates can be activated by supplying the electrolyte and between them Battery cells are formed, the one containing the electrolyte Capsule breaks or opens when the projectile is fired. With such batteries, the problem arises of securing that the cell is evenly filled with electrolyte without being caused by direct Connection between the different layers of the panels via the Electrolyte short circuit is brought about. So far this has been a problem solved with the help of complicated filling mechanisms, often with special

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Flow channels to obtain an even distribution of the electrolyte above the individual cells were combined. Also it is already known to manufacture a battery whose cells are on the middle Hardly with the capsule facing inside are open, whereby the cells are filled under the action of centrifugal force in that the electrolyte from the central space, in which it first accumulated after the capsule was broken, flows directly into the cells The known battery contains plates, which are arranged in a helical ring3 around the middle bar, with, to the flow in to enable the cells, these cells are also open at the opposite outwardly directed ends of the cell plates. To avoid a short circuit between the electrodes via the electrolyte, iat a special insulation is attached to the outwardly directed ends of the cell plates.

The invention aims to provide a battery which is much simpler than known batteries and which also has a has shorter activation time »

The invention is characterized in that the cell plates are insulated from one another and on their outwardly directed from Central space facing away ends are closed, so that the battery cells formed between the plates are closed at the outer ends and are completely open at the inner ends facing the aforementioned central space, the amount of electrolyte being such that the electrolyte is to a certain extent evenly distributed over the cells Distance from the open inner ends of the cells ends.

The invention is based on a special phenomenon that results when a projectile is fired, namely a projectile

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has a maximum axial acceleration before its rotation one has reached considerable value. This means that if the capsule is a result the linear acceleration is broken, the centrifugal force exerted on the electrolyte is almost negligible. This Electrolyte therefore accumulates on the bottom of the central space containing the electrolyte and, if the cells have no flow resistance the electrolyte penetrates all cells to the same level at the same time. The next time the rotation peaks reached, the electrolyte is pressed against the outer walls of the battery, the level then being parallel to the axis of symmetry, in which position the electrolyte is held by the action of centrifugal force

POr a correct distribution of the electrolyte over the individual For cells, it is essential that the electrolyte flows into the cells from the central space so quickly that all cells up to the same level have been filled before the centrifugal force at the time at which the projectile is the opening of the ignition tube approaches, their action on the electrolyte begins. Basically, the filling of the cells is then finished and the centrifugal force is effected only then that the level of the electrolyte is oriented in a different direction · At the point in time at which the centrifugal force its When the electrolyte begins to act, the amount of electrolyte remaining in the central space is also distributed. This amount of electrolyte can do something be distributed differently, which can cause an uneven distribution of the electrolyte over the cells.

In order to obtain an optimal distribution of the electrolyte, the battery is characterized according to a further feature of the invention

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indicates that on the floor dee middle room, the - in the Direction of movement of the 8 storey seen - is directed backwards, a raised part is provided, which extends over a certain distance extends in the axial direction in the central space and is dimensioned in this way is that between this part and the inwardly facing free ends of the cell plates a. Gap is formed. The raised part can advantageously extend over such a distance that e one upper end is above the electrolyte level and the whole Amount of electrolyte has accumulated in the bottom of the battery. The one in the middle space at the beginning of the action of centrifugal force on the electrolyte The amount of electrolyte that is still present, which could lead to an uneven distribution of the electrolyte, is then indicated by the slide on the mentioned gap formed · which are made so small can ensure that an almost completely even distribution is ensured.

The invention is explained in more detail below with reference to the accompanying drawings. It shows

Fig. 1 is a longitudinal section through a battery according to the Invention,

2 shows a cross section through this battery,

Fig. 3 shows a cross section through a battery with others Wise arranged cell plates,

4 shows a longitudinal section through an improved embodiment, and

5 shows some curves to explain the design and mode of operation the battery according to the invention.

The battery according to Figures 1 and 2 consists of a metal outer jacket 1, a cover 2 and an inner casing 5. A

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middle space 4 inside the battery contains a capsule 5, which au3 There is glass and in which the electrolyte 6 is located. The capsule is supported by a support 7 and is closed by means of a ring 8 in the centered position supported. With a strong acceleration in the the direction indicated by the arrow collapses the support 7, the capsule against the one arranged on the floor 9 of the battery room Stop 10 breaks. In the space between the middle room 4 and the inner casing 3, a number of stacks 11 composed of cell plates 12 are arranged. Each of these stacks is in a cell container 13 e.g. made of plastic. The containers 13 have one closed base 14 each on the outside on the circumference of the battery, while the opposite end, the is directed inwards towards the middle room 4, is completely open. In the bottom 14 grooves 13 are provided into which the cell plates are inserted are. The plates are arranged parallel to one another in the containers 13 and battery cells 16 are formed between them, which are completely closed at the outwardly directed ends and insulated from one another are, while they are completely open at the ends facing the central space 4. The outer panels of each panel stack end in the one shown Embodiment at a slightly larger distance from the axis of symmetry than the intermediate plates of the stack. Four such cell containers with parallel cell plates are around the middle one Space 4 arranged and the layers of the panels are in the usual way interconnected to form a battery. Terminals 17 extend through the cover 2 and allow the battery to be connected a charger

Fig. 3 shows another arrangement of the cell plates, the

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differs from the embodiment of FIG. 2 in that the Plates in Fig. 3 are arranged radially with respect to the axis of symmetry. The arrangement according to FIG. 3 can be used in combination with the embodiment according to FIG. 1 and also in combination with the embodiment according to FIG. 4 to be described below.

4 shows an improved embodiment of the battery according to the invention, which is essentially characterized in that the electrolyte is distributed more evenly over the cells · Corresponding parts have been given the same reference numbers as in the previous figures.

In FIG. 4 i ^ß the capsule containing the electrolyte t 5 arranged on a support 7, which breaks down in a strong acceleration, breaking bo that the capsule against a stop 10. Cell plates 12 are arranged around a central space 20, which cells are insulated from one another and closed at the outer ends and open at the inner ends and facing the aforementioned central space, as shown in FIG. 2 or in FIG. 3. The embodiment according to FIG. 4 differs from that according to FIG. 1 in that the middle space 20 containing the electrolyte is widened in such a way that the capsule lies completely on the other side of the cell stack, while a raised part 21 is provided on the bottom 9 of the middle space , which extends over a certain Abetand axially along the radially arranged plates or plate stacks. The raised part 21 is somewhat conical and has a smaller diameter than the circle defining the inner edges of the plates, so that a gap 22 is formed between the raised part 21 and the mentioned inner edges of the plates, which gap widens slightly upwards. The line L indicates the level of the electrolyte when the latter has completely accumulated on the bottom of the battery. As shown, the raised portion 21 has such

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Length h that it is at a certain distance above the line L - from bottom of the battery counted - ends.

The mode of operation is explained in more detail with reference to FIG. 5, in which the curve a- represents the axial acceleration as a function of time, UJ the rotation and P the centrifugal force as a function of time,

which Kurren apply to a projectile in which a battery according to the invention is arranged. The projectile is fired at time 0 and leaves the barrel at time t _Q. The axial acceleration increases very quickly, as shown, and reaches its maximum value when the projectile B is still in the first half of the tube. The rotation, on the other hand, increases after a flatter curve and reaches its maximum value when the projectile leaves the barrel. The centrifugal force, which is proportional to the square of the rotational speed, is particularly small at the beginning, but increases rapidly in the last part of the tube.

It is assumed that the capsule breaks at time t. The centrifugal force is practically zero at this point and the electrolyte is under the action of the axial acceleration pressed against the bottom 9 of the battery. As a result of the fact that the cells 16 are attached to the central space containing the electrolyte facing ends are completely open and thus a low flow resistance for the electrolyte, the cells are quickly filled with electrolyte. After a short interval and before the centrifugal force has increased significantly, e.g. at the point in time when the axial acceleration reaches its maximum value, the electrolyte has a Assumed a position in which - counting from the bottom 9 - the level in all Cells of the battery is almost constant. This level is shown in FIG

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the mentioned line L indicated. Every cell receives almost that same amount of electrolyte, while also a small amount of electrolyte in the middle room 4 or 20 remains. As the axial acceleration increases as the projectile approaches the opening of the barrel, while the rotation increases at the same time, the electrolyte is pressed against the outer wall of each cell Hardly any remaining amount of electrolyte distributed over the individual cells, When the rotation and thus also the centrifugal force have reached their maximum values, at the point in time when the projectile hits the barrel leaves, the electrolyte level in each cell takes a position almost parallel to the outer wall. The amount of electrolyte is so dependent on that Total volume of cells related to the level with an exactly equal * distribution of the electrolyte over the cells at a substantial distance from the free inner edge of the cell plates. Of the The electrolyte level for the activated battery with a uniform distribution over the cells is indicated by line A in FIG. Despite the simple design and the absence of overflow channels it turned out that the level in the individual cells is only in deviates slightly from this main value. The difference in the degree of filling β of the lower different cells is shown by the lines A in FIG.

or A indicated. It is essential that A is less than that max max

The depth of the cells is because otherwise there will be a short circuit at the front edge of the plates would occur · If filled evenly, this can even occur with one a relatively high degree of filling of the cells can be ensured.

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Claims (4)

-9- Z.PHN. 4646. PATENT CLAIMS t V ·) Battery that is activated by acceleration and itself suitable for use in ignition tubes for rotating projectiles, which A capsule (5) for an electrolyte (6) within a battery middle space (4,20) and axially arranged cell plates (12) outside of the mentioned middle space contains which plates can be activated by supplying the electrolyte and between which battery cells (16), whereby the capsule containing the electrolyte breaks or opens when the projectile is fired characterized in that the cell plates (12) are isolated from one another and facing away from the aforementioned central space (4 »20) at their outwardly facing Ends (14) are closed so that the battery cells (16) formed between the plates are closed at the outer ends and on the inner ends facing the mentioned middle space (4 * 20) completely are open, the amount of electrolyte being such that the electrolyte if it is evenly distributed over the cells, it ends at a certain distance from the open inner ends of the cells (16). 2. Battery according to claim 1, characterized in that the plates (12) are arranged in planes which calibrate almost radially in relation on an axis of symmetry in the central space (4, 20). 5. Battery according to claim 2, characterized in that the Cell plates (12) are arranged in stacks (11), the plates of each stack are nearly parallel, and a number of these stacks are mounted around the central space (4,20). 4. Battery according to one of claims 1 to 3 »characterized in that that on the floor (9) of the middle room (20), which - seen in the direction of movement of the projectile - is directed backwards, 209816/1298 -10- Z.PHN. 464b. a raised part (21) is provided which extends over a certain distance extends in the axial direction in the central space and the such is sized that between this part and the inward facing free ends of the cell plates (12) a gap (22) is formed. 209816/1298