DE1260590B - Switch opened by explosion of a load - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl ..

HOIh

German class: 21c-35/10

Number: 1260 590

File number: G 29067 VIII d / 21 c

Filing date: February 19, 1960

Open date: February 8, 1968

The invention relates to a switch which opens by an explosion of a charge and has a cylindrical shape Housing which receives a piston-like, movable contact body and at one end of a hollow cylindrical resting contact body is limited with facilities for receiving the explosive Charge is provided.

The field of application of such a switch are preferably remote-controlled missiles or Projectiles, such as missiles or torpedoes.

The invention is based on the object of specifying a switch which has strong acceleration or deceleration forces, such as those when firing or impact of projectiles, when starting or braking of missiles, as well as strong Withstands vibrations without the switch opening or closing by itself. Furthermore, a must Such switches should be as small, light and compact as possible in construction and extreme environmental influences, like sea water, extreme cold and extreme heat, equally withstand. The switch should too Can be triggered by an electrical signal and thereby strong electrical currents as possible interrupt quickly.

Although it is a switch with a cylindrical housing is known, which has a piston-like, movable Receives contact body and at one end of a hollow cylindrical high contact body is limited, which is provided with devices for receiving the explosive charge, through their Explosion of the switch is opened by the charge by the interrupting current itself is ignited when this current exceeds a predetermined limit value, so that this switch acts as an automatic switch. However, the explosive charge is in the cylindrical side wall of the switch housing housed, which has the consequence that the pressure wave of the explosion gases does not occur immediately hits the piston of the movable contact body, but only after a deflection. This results in there is a delay in opening the switch. This known circuit breaker can also only be used in vertical position, as no measures are provided to prevent them from moving touch the contact body again if the switch is to be used in the reverse position, or when acceleration forces act in the direction of closing the contacts. In the end a sufficiently good contact pressure can only be guaranteed when the switch is closed, if the intended fuse, which consists of a pin that is perpendicular to the Switch opened by explosion of a load

Applicant:
5

General Electric Company, Schenectady, N.Y.

(V. St. A.)

Representative:

Dr.-Ing. W. Reichel, patent attorney,
6000 Frankfurt 1, Parkstr. 13th

Named as inventor:

is Lewis Howard van Billiard, Pittsfield, Mass.
(V. St. A.)

Claimed priority:
V. St. v. America February 20, 1959 (794 671)

Longitudinal axis of the contact body engages in a recess in the shaft, measured very precisely is. If this switch is actuated several times, it is to be expected that the contact pressure decreases because the recess and locking pin wear out.

With other automatic or disconnectors, which also open by igniting an explosive charge is effected or supported, either parts of the switch are activated by the Explosion destroyed, so that they have to be replaced again after actuating the switch, or the separation takes place only relatively slowly, since primarily that which occurs during the explosion Heat is used, namely to melt solder, which is one of the contact bodies bridging metal body connects to the contact bodies in the closed state. Only when the solder has melted does the metal body fall off and open the switch. In the end there are switches in which the explosive charge is housed in one of the contact bodies. here However, the charge is not used to open the switch, but only to blow it out when it is opened resulting arc, as it is only ignited by the arc.

According to the invention, the specified object is achieved in that in the bottom wall of the resting contact body provided a recess

809 507/487

I 260 590

A plurality of incisions 22 uniformly arranged around the cylindrical chamber 20, make the side wall 16 of the chamber 20 slightly resilient. The incisions 22 extend, as shown, 5 not up to the bottom wall 18 of the contact body 12. The contact body 12 also forms with an inside screwed neck 24 one unit. As a result, the contact body 12 can be attached to the screw thread provided end of the electrical conductor 26

containing the explosive charge that
is connected via lines to an electrical ignition circuit, and that the movable contact body except for one in the sliding fit of the cylindrical
Guided side wall of the stationary contact body
Piston one due to a larger diameter with the switch closed in the press fit of
the side wall guided piston part contains, and that
through at least one gas outlet opening in the housing
a locking spring protrudes into the housing chamber, which strengthens the io, which in turn is rigidly attached in or on the Wan movements of the movable contact body in manure or support 28. When the direction of the resting contact body after the conductor 26 is at a potential that blocks from the earth explosion. potential differs, this conductor 26 of the

That is, the piston diameter tapers wall 28 insulated, or the wall 28 becomes from made in steps to the non-electrically conductive material to the resting contact body 15, facing end, whereby on the one hand the inactive contact body 12 are several drilling

guide the piston in the hollow-cylindrical resting rods 32 which lead to the chamber 20 through the the contact body when the switch is closed - bottom wall 18, as shown in FIG. 1 and 2 removed easier and on the other hand through the thicker KoI- can lead. The ends of the drill holes 32, Partly a shockproof, safe contact between the 20 closest to the chamber 20 are ver contact bodies is guaranteed, which only then lowers and form depressions 34 for explosive lainterrupt when the explosion pressure fertilizes a 36. Each of these depressions 34 has one has reached a relatively high value, so that such a size that they receive a charge 36 Interruption can not be gradual but sudden. The charge 36 is made up of a small container he follows. Characterized in that at least one gas outlet 25, paper, cardboard or the like, of tubular shape Opening must be provided, results in a special and filled with powder. The number of wells This simple solution to the problem of the fuse 34 in the resting contact body 12 depends in part the contact body before mutual contact according to 'on the size of the resting contact body 12 and the opening when this outlet opening of certain of the movable contact body 14 is mapped and formed measured twice by making the locking spring 30 a safety factor with respect to the number of through the exhaust port into the housing chamber, charges 36 which may result in misfire protrudes. The locking spring protrudes obliquely and the switch 10 is still able to work. In inside so that when the switch is opened by a preferred embodiment they are three the movable contact body is pressed outwards, bores 32 parallel to the longitudinal axis 38 of the rest and when the movable contact 35 is arranged the contact body 12. You are related body has moved past the locking spring, attached again equiangularly to the axis 38 and of springs inward and an opposite mover axis 38 equidistant. Your distance movement of the movable contact body in the direction of the axis 38 is so great that it is at the approach on the resting contact body prevented. 24 can move past, as shown in FIG. 1 and 2

The establishment of contact will preferably show in further 40.

Formation of the invention is further improved in that the movable contact body 14 consists of

the rahende contact body and the movable con - a guide piston 40, a piston part 42, tact body made of soft, stretchable electrically conductive a conical connecting element 44 made of the material and preferably all parts of the same and a shaft 46. The guide piston 40 is made of chemical material and that the side 45 has a diameter which is dimensioned so that the wall of the stationary contact body resiliently defor- guide piston 40 can be slid into the side wall 16 by partially fitting in the longitudinal direction of the stationary contact body 12 and therefore being slotted. easily into the chamber 20 of the rahenden contact

In the following, an embodiment body 12 can be introduced. The piston part for example in connection with the drawings the 50 42 has a slightly larger diameter than the Invention explained in more detail. Guide piston 40, its diameter is so large

that the piston part 42 must be driven into the chamber 20 of the contact body 12 at rest. A flexible electrical conductor 50 is attached to the flattened end portion 48 of the shaft 46.

In certain applications it is desirable to ensure that neither of the two contact bodies can make contact with other elements of the system, of which the switch 10 is only a part, bodies with 12 and 14 and the switch with 10, and furthermore that the con. Do not accidentally touch both the stationary contact body 12 and the clock body 14 and 12, even if the movable contact body 14 consists of the switch 10 is open. Appropriately, soft, stretchable electrically conductive material, this is achieved in that a protective housing 54 made of z. B. aluminum, soft brass, an alloy electrically insulating material, e.g. Nylon, approximately 68% copper and 32% zinc, copper, etc. 65 is seen. The housing 54 is fastened, for example, to the side wall 16 and the bottom wall 18 of the resting contact body 12 by means of screws 56. The contact body 12 forms a cylindrical chamber. The inside of the housing 54 has a note 2 ©, which is shown in FIG. 2 is best seen. relatively long cylindrical chamber 58 with

F i g. 1 shows the side view, partly in section
a closed switch;

F i g. 2 also shows a partially in section
Side view of an open switch, and

F i g. 3 shows an enlarged partial view of the contact surfaces between the two contact bodies of FIG
Switch.

In Figs. 1 and 2, the two contact

such a large diameter that the movable contact body 14 can move freely therein. The end wall 60 of the housing 54 has a central opening 62 through which the shaft 46 extends of the contact body 14 can move freely. Since the opening 62 in the end wall 60 of the protective housing 54 only has a slightly larger diameter than the shaft 46, the other parts of the Contact body 14 not out of protective housing 54. In the side walls 64 of the housing 54 A series of openings 66 are provided through which the gas released by the explosion of the charges 36 arises, let out of the chamber 58. The openings 66 also enable such attachment by locking springs 68 on the outside of the housing 54 by screws 70 that they are in the chamber 58 reach into it, as shown in FIG. 1 and 2 shown. Thus, when the contact body 14 is in the in F i g. 2 moves, the locking springs 68 engage in the chamber 58 and prevent that the contact body 14 comes into contact with the contact body 12.

When the switch 10 is assembled, a charge 36 is deposited into each of the recesses 34 of the resting contact body 12 introduced. The two insulated wires 72 attached to each load 36 extend through the bore 32. The contact body 12 can then be connected to the end of the conductor 26 be screwed. The wires 72 of each load become more common with an ignition circuit Embodiment, which is not shown, connected so that all charges in parallel to the ignition circuit are switched. The guide piston 40 of the contact body 14 is then inserted into the chamber 20. The front end 74 of the guide piston 40 is folded to accommodate the introduction of the guide piston 40 into the chamber 20 to facilitate. The length of the guide piston 40 in The direction of the longitudinal axis 76 of the contact body 14 is slightly smaller than the length of the chamber 20 in FIG Direction of the axis 38. Thus, when the guide piston 40 of the contact body 14 into the chamber 20 is introduced, the corresponding longitudinal axes 38 and 76 of the contact bodies 12 and 14 coincide. In this way, the contact body 14 is not tilted with respect to the contact body 12 or twisted. The diameter of the piston part 42 of the movable contact body 14 is greater than that of the guide piston 40, namely so much that it has to be driven into the chamber 20. Of the Contact body 14 is driven so far into the contact body 12 until the guide piston 40 the Bottom wall 18 of the contact body 12 touches. When the contact bodies 14 and 12 are connected, can the protective housing 54 can be slipped over the contact body 14 and fastened to the contact body 12. The flexible conductor 50 is then connected to the shaft 46.

F i g. 3 illustrates an enlarged partial view of the contact surface 78 between the sidewall 16 of the contact body 12 and the piston part 42 of the contact body 14. While the contact body 14 in the chamber 20 is inserted until the guide piston 40 hits the bottom wall 18 of the chamber 20 contacts some metal behind the leading edge 80 of the piston member 42 is removed to provide an area 78 with very intensive contact between the piston part 42 and the side wall 16. the Force acting on the surface of the piston part 42 also serves to remove some of the metal from the remove inner side wall 16 in order to achieve a further enlargement of the area 78. It is therefore not necessary, either the side wall 16 of the contact body 12 or the surface of the piston part 42 to be machined finely before the contact body 14 is inserted into the contact body 12. The fit between contact body 12 and con

ίο taktkörperl4 holds both tightly against each other so that Accelerations or vibrations to which the switch 10 is subjected, no separation of these Parts can cause.

When the current flowing through the switch 10 exceeds a predetermined maximum value or if the system of which switch 10 is part is to be shut down, the can Switch 10 opens the circuit through the charges 36. The ignition circuit expediently contains a dry cell battery and a switch. When this switch is closed, a current flows like this Size by the charges 36 that these are ignited. It is advantageous to use ignition charges whose gases or flames do not have any Cause destruction. So it is used ignition charges that are not highly explosive. By the charges 36 generated gases rather cause a gradual increase in pressure in the Chamber 20 between bottom wall 18 and guide piston 40.

As already mentioned above, the incisions 22 in the side wall 16 do not extend to the bottom wall 18 of the contact body 12. The reason for this is that the charges 36 generated Gases are prevented from making their way through the incisions 22 around the contact body 14 to take and in this way to partially reduce the pressure effect on the contact body 14. The length of the incisions 22 is not critical as the switch will also work safely when the incisions 22 extend to the bottom wall 18.

The gases generated by the charges 36 create a greater pressure than required to to guide the movable contact body 14 quickly against the end of the protective housing 54 until the connecting piece 44 onto the inner surface of end wall 60 of housing 54 of FIG. 2 occurs. When the contact body 14 is separated from the contact body 12, it presses the locking springs 68 in the process outward. When the contact body 14 has passed the openings 66, the locking springs 68 return back to their original position and engage so far into the chamber 58 that it is ensured that the contact body 14 does not accidentally touch the contact body 12. If the contact body 14 once Has passed the openings 66 in the housing 54, the gases generated by the charge 36 can escape from the chamber 58.

The speed of movement of the contact body 14 out of the contact body 12 or the kinetic one Energy of the contact body 14 is reduced by the fact that air between the piston part 42 and the end wall 60 of the housing 54 is compressed as the air only passes through a small Clearance between the shaft 46 and the opening 62 of the end wall 60 emerge. This will make the The force with which the contact body 14 strikes the housing 54 is reduced.

A major advantage of the switch 10 is that the charges 36 generated Gases have a higher dielectric constant than that of the surrounding atmosphere. Another Advantage arises from the fact that the gases in the space between the guide piston 40 and the resting contact body 12 are circulated. Due to the interaction of the higher dielectric constant the gases generated by the charges 36 and the turbulence of the gases Arc between the contact body 14 and the contact body 12 when these two members separated quickly deleted.

It is possible to rigidly attach the protective housing 54 to the contact body 14 and the contact body 12 to be arranged movable relative to the contact body 14. In certain circumstances it is possible to dispense with the protective housing 54, especially if there is practically no possibility that the contact body 14 accidentally comes into contact with the contact body 12 or if it is impossible for any of these members to touch any other part of the system.

Claims (3)

Patent claims: 1. Explosion of a charge opening switch with a cylindrical housing which receives a piston-like, movable contact body and is limited at one end by a hollow cylindrical stationary contact body which is provided with devices for receiving the explosive charge, characterized in that, that a recess (34) is provided in the wall (18) of the stationary contact body (12) pointing towards the interior of the housing is, in which the explosive charge (36) is, which is via lines (72) with an electrical Ignition circuit is connected that the movable contact body (14) except for one im Sliding fit of the cylindrical side wall (16) of the stationary contact body guided piston (40) one due to a larger diameter with the switch closed in a press fit from the side wall (16) guided piston part (42) and that through at least one gas outlet opening (66) in the housing (54) a locking spring (68) protrudes into the housing chamber (58), which controls the movement of the movable contact body (14) blocked in the direction of the resting contact body (12) after the explosion. 2. Switch according to claim 1, characterized in that the resting contact body (12) and the movable contact body (14) made of soft, stretchable, electrically conductive material and preferably all parts are made of the same material. 3. Switch according to claim 1, characterized in that the side wall (16) of the resting Contact body (12) is resiliently deformierbai by being partially slotted in the longitudinal direction is. Considered publications:
German patent specifications No. 133 836, 630 851, 262;
British Patent No. 26,693 dating from 1901;
U.S. Patent No. 723 183. 1 sheet of drawings 809 507/487 1.68 © Bundesdruclierei Berlin