US2682567A - Breaker mechanism for frangible ampule in deferred action battery - Google Patents

Description

June 29, 1954 H. H. PORTER 2,682,557

BREAKER MECHANISM FOR F'RANGIBLE AMPULE IN DEFERRED ACT-[ON BATTERY Filed Feb. 5, 1944 Mmmm mmm

INVENTOR HENRY PORTER ATTORNEY Patented June 29, 1954 BREAKER MECHANISM .Fon FRANenema AMPULE IN DEFERRED ACTION BATTERY Henry H. Porter, Washington, D. C., assignor to the United States of America as represented by the Secretary of the Navy Application February 5, 1944', Serial No. 521,250

(Cl. 13G- 90) 4 Claims.

l This invention relates generally to deferred action or voltaic batteries of the type used with electrically detonated projectiles and more particularly to an improved Vbreaker mechanism, constituting a further development of the invention disclosed in theV copending application of Franklin L. Everett, `Serial No. 502,069, led` `September l1, 1943, for Breaker Mechanism.

11n said Everett case there is disclosed a somewhat similar device, but in which the spring washer that supports the ampule is initially cupped oppositely to the one herein embodied, that is, in the present case the spring washer initially has its outer edge portion uppermost,

Iand the said outer edge portion of said washer directly or indirectly supports the ampule, Whereas in the Everett case the spring washer has' its vcentral opening uppermost, and the central portion supports the ampule. This is the line of demarcation between the two cases.

In deferred action batteries developed up to the present time the supporting mechanism for the Ifrangible ampule employed has been found not to be entirely reliable for the reason that the tolerances do not always remain constant. More particularly, the distance between the pointed end of the breaker element and the lower end portion of the ampule may be varied by buckling of the bottom wall of the battery can.

As a result, the breaker mechanism is often posif4 tioned to close to the ampule, and premature .breaking of said ampule sometimes takes place.

One of the principal objects of the invention, therefore, is to provide a breaker mechanism which is so constructed that the distance between the end of the breaker element and the lower extremity of the ampule will remain con-- stant, even if the battery can is considerably bent or buckled.

Another object of the invention is to provide a breaker mechanism affording improved support for the ampule.

A further object of the invention is to provide a mechanism of this character which will afford resilient support for the ampule, so that premature breakage will be largely prevented.

Still another object of the invention is to provide a breaker mechanism which is characterized by its extreme simplicity of construction.

Other objects of the invention, not mentioned hereinabove, will be evident from the following description, taken in conjunction with the drawing forming a part hereof.

Fig. 1 is an axial sectional View showing the improved breaker mechanism, also showing adjacent portions of a deferred action battery in which the mechanism is installed.

Fig. 2 is a View similar to Fig. l, illustrating the result of the setback action.

Referring more particularly to the drawing, the numeral I indicates generally the inner can of a deferred action battery of the type used with electrically detonated projectiles. The can I is of metal, and is of generally cylindrical shape. Closing said can at its lower end is a bottom wall 2. Mounted within the can I, adjacent to the bottom wall 2 and the side wall of said can, is a supporting sleeve 3 which is formed of plastic and which is provided with va shoulder 4. Located in the can l, concentrically thereof, is an electrode 5. This electrode cooperates with the side wall of the can in deli-ning the A-cell of the deferred action battery. Fitted within the electrode 5 is an ampule 6 which is formed of glass or other frangible `material and is designed to contain a suitable electrolyte. The ampule 6 is formed with a rounded bottom portion which is supported in a cup 'I of Asoft rubber, said cup having an axially located opening 8 at its lower end. The cup I is mounted on a thrust element or supporting ring 9 and said supporting ring is formed with an laxial opening I0 and a concave seat II, such seat being designed to receive the lower end of the cup 'I. To further the latter purpose, the cup has an exterior annular flange forming a recessinto which the upper portion or" the ring 9 extends. If desired the cup 'l be omitted, a desirable degree of resiliency then being s upplied by the ring or thrust element 9 which may be formed of resilient material.

Fixed on the bottom wall 2 of the can, axially thereof, and in alignment with the opening 8, is a head or breaker element assembly I2. The breaker element includes a shank I3 which terminates at its upper end in an enlarged disc I ll, said disc having an overhanging flange I5 which cooperates with a spacing washer I6 to define an annular groove I'l. The breaker element assembly I2 is also provided with an upwardly projecting breaker point I8 and is headed below the can at I9, a spacing washer 20 being interposed between the head and can. The washers I6, 20 are clamped tightly enough to seal the can, although solder or the like may be used in addition if desired.

The ampule 6, the cup 'I and the ring 9 are supported above and in spaced relation to the breaker element by a Belleville washer in the form of an inverted frusto-conical spring 2l. As

will be seen, the spring is formed with an axial neck opening which defines an inner rim, the inner rim being normally received in the groove l1. The outer rim of the washer or spring 2l engages the lower surface of the ring 9. It will thus be understood that the spring 2l normally supports the ampule above the breaker element I2, but suddenly snaps into inverted condition when suiicient force is applied. In other words, the spring washer 2l is normally concave upward as shown in Fig. 1, but suddenly snaps into the condition shown in Fig. 2, wherein it is concave downward. Such snap-action spring washers are known commercially as Belleville washers.

The spring 2| resiliently opposes contact between the lower end of the ampule 6 and the breaker point I8. The resistance of the spring is such that these parts cannot be thrownvinto contact by forces or shocks of the order encountered during the handling of projectiles prior to ring thereof.

It should be noted that the spring 2l is supported by the breaker element assembly and not by the bottom wall. Thus, if the bottom wall is caused to move inwardly by forces such as those present when assembling these parts into their outer case, the ampule will be caused to move the same distance. It will therefore be seen that the distance between the upper end of the breaker point I8 and the lower end of the ampule 8 will always remain substantially constant under ordinary loadings and forces.

During setback, the resistance produced by the inertia of the ampule is such that the point I8 is driven into it and the ampule broken, the 1;

spring 2l being compressed. The cell is thus charged with electrolyte and rendered effective. In event of a slower movement or distortion of the can causing forward movement of its bottom wall, and of the point I8, however, such as might occur during rough handling or for any other reason prior to firing, the spring 2| simply moves the ampule bodily in the same direction without permitting contact between the breaker point and ampule.

Obviously many modifications and Variations of the present invention are possible in the light of the above teachings. It is therefore to be understood that within the scope of the appended claims the invention may be practiced otherwise than as specically described.

What is claimed is:

l. In a deferred action cell having electrodes and a rangible container containing the electrolyte, means for ensuring the breakage of said container when the cell is to be put into service, said means including a breaker having a projection adjacent the container, and a snapaction washer of the Belleville type, having its initially concave side toward the said container, and its outer edge portion supporting the container, said washer normally maintaining the projection a constant distance out of Contact with the container but yieldable upon application of sufcient force,` to cause the projection to enter and break the container.

2. In a deferred action cell as defined in claim 1, a breaker having an abutment and `a projection extending from the said abutment toward the container, the snap-action washer bearing against said abutment and against said container to keep them normally separated by a constant distance.

3. In a deferred action battery adapted to be activated under a force of setback and having a frangible ampule for containing an electrolyte, a collapsible support for the ampule comprising a head against which the ampule is movable by a force of setback to break the ampule, a concave-convex snap action disk centrally mounted on the head and having its concave surface facing the ampule, and a seat mounted on the rim of the disk for supporting the ampule in spaced relation to the head.

4l. In a deferred action battery adapted to be activated under a force of setback and having a frangible ampule for containing an electrolyte, a collapsible support for the ampule comprising a head against which the ampule is movable by a force or" setback to break the ampule, a concave-convex snap action spring disk centrally mounted on the head and having its concave surface facing the ampule, and an annular member mounted on the rim of said first disk for supporting the ampule in spaced relation to the head.

References Cited in the file of this patent UNITED STATES PATENTS Nulnber Name Date 287,924 Gruson et al Nov. 6, 1883 823,681 Gulick June 19, 1906 1,311,678 Cartwright July 29, 1919 2,336,701 Rasmussen Dec. 14, 1943 2,408,567 Wales July 9, 1946 1 FOREIGN PATENTS Number Country Date 305,287 Germany Apr. 18, 1918 526,800 Great Britain Sept. 25, 1940 OTHER REFERENCES Ashworth, G., Proceedings Institute Mechanical Engineers, vol. 155, No. 16 (1946) page 98.

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