DE2136188A1 - COMPRESSED GAS DRAINABLE CONTAINER, IN PARTICULAR FOR LIQUID ROCKET FUEL - Google Patents

Description

Containers that can be emptied using compressed gas, especially for liquids Rocket propellants The invention relates to a pressurized gas or the like Container that can be emptied as a conveying medium, especially for liquid rocket propellants, in that to prevent contact between the contents of the container to be emptied and Conveying medium at least one piston and one that is partially axially movable with the piston, partly immovable roll membrane are provided.

In a known cylindrical container of the type mentioned at the beginning A flow path leads to the outside through each end wall. One is used for the pumped medium as an inlet. The other flow path is as an outlet for the means of the conveying medium Determines the contents of the container to be emptied. A piston that moves axially in the container and close a rolling diaphragm that is partly movable with the piston and partly immovable a contact between the medium to be conveyed and the contents of the container to be conveyed. The immobile one The membrane part is in the area of the outlet for the container contents on the container shell fixed. The movable part of the membrane is only when the container is full on the container jacket. Otherwise it forms - more or less turned inside out - with the immovable part of the diaphragm one protruding into the medium, exclusively Annular space accessible for the contents of the container to be emptied. He is harnessed movable diaphragm part between the piston end wall and a parallel one Wall element. The last-mentioned wall element is located on the inlet of the conveying medium facing piston side. It is part of a with attached to the piston rod Piston skirt, which is directed towards the inlet of the pumped medium and serves to guide the diaphragm Jacket, when the container is full, increases the effective length of the same by about 50%.

The last-mentioned fact is particularly in the case of missiles such as missiles, where the greatest value must be placed on saving weight and space, of big disadvantage.

Avoiding this disadvantage by simple means is the task the invention.

This object is achieved in that the immobile Diaphragm portion in the vicinity of the supply of the pumped medium or a subset of the same is fixed on the container jacket, while the axially movable membrane portion is only when the container is empty, it is in full contact with its jacket, but otherwise completely or is turned inside out in sections and with the immovable part of the membrane one protruding into the contents of the container to be emptied, exclusively for the pumped medium forms accessible annulus and that a loose piston skirt is arranged in this annulus is, which with the everted, axially movable membrane part or its respectively everted section is in contact.

The container according to the invention is distinguished from the known, generic Container execution compared to the fact that it is essentially the same with the same capacity is smaller. This is mainly due to liquid rockets a pressurized gas delivery system extremely interesting advantage on the arrangement made and mutual assignment of rolling diaphragm, piston and piston skirt in the container. Because of this arrangement and assignment are namely the immovable part of the membrane, the The diaphragm part that can move with the piston and the piston skirt when the container is full not - as in the known case - one behind the other but next to each other.

In an embodiment of the invention, the loose piston skirt is on that one End facing the membrane fold resulting from the eversion, with pulleys Mistake. These pulleys are caused by the frictional forces between loose piston skirt and everted part of the membrane during the rolling process of the latter in pushed in the membrane fold and safely prevent unwanted creases from forming there in the membrane material.

In a further embodiment of the invention, the loose piston skirt at the end facing away from the membrane fold resulting from the eversion is, an end cover, which membrane piston and supply point for the pumped medium separates from each other and one or more, nozzle-shaped bores or the like with a small cross-section or overall cross-section compared to the cover cross-section owns. This constructive measure, which is easy to implement, is above all everywhere Mounted where it is important to empty the container quickly. Due to the pressure loss that the pumped medium has on its way to the diaphragm piston experiences in the cover bore or the cover bores, namely reaches through to the Frictional forces in the direction of the outlet for the medium to be pumped piston skirt a pressure force accelerating this movement.

Exceeds in the case of a container, of the two end walls of which the one is a conveying medium inlet, the other is an outlet for the container contents to be conveyed If the latter has a certain volume, it is advisable to submit a particularly rapid emptying of the container a) the movable part of a first rolling membrane in the area of the inlet-side container end wall and that of a second rolling membrane ia To fix the middle container area to the container jacket, b) the movable one Parts of both rolling diaphragms associated piston each at one end of a geein salen, to fix the hollow piston rod, c) the hollow piston rod in a centric To guide the bore of a container partition running between the two pistons tightly, d) the rod cavity at its end associated with the membrane piston near the inlet closed, but open at its end associated with the Meibran piston near the outlet form, e) the container section between the outlet-side membrane piston and the corresponding Container front wall over the rod cavity and from this close to its closed Openings leading radially outward at the end with the container section between the container partition and to connect the inlet-side diaphragm piston and f) through the cavity of the piston rod a tube open on both sides from the container section between the inlet-side membrane piston and the corresponding container front wall. Container section between the container partition and to lead the outlet-side diaphragm piston.

The invention is illustrated schematically with reference to the drawing Explanatory example in more detail.

The only figure shows one, for example for a compressed gas delivery system a liquid rocket engine perfectly suitable, cylindrical container 1, in longitudinal section. From its two front walls curved in the same direction 2, 3, one (2) has an outlet 4 for the container contents to be conveyed, for example Rocket fuel, the other (3) an inlet (5) for the conveying medium, for example inert pressurized gas. The latter container end wall 3 is also a component a flanged spherical pressure vessel 6, which the pressure gas storage represents.

The container 1 is separated by a @@@@@@@@@@@@@@@@@@@@@@ @@@@@@@@@ Wall 7 in two halves that do not communicate with each other. Each of these halves is through one of the container end walls 2, 3, adapted, axially movable piston 8 and 9, respectively and a partly immovable, partly with your piston 8 or 9 movable rolling diaphragm 10 and 11 in two again non-communicating sections 12 and 13 or 14 and 15 divided. Of the two diaphragm pistons 8 and 9, the one on the inlet side Container front wall 3 adjacent (8) at the closed end 16, which the outlet-side container end wall 2 adjacent (9) all open end 17 attached to a hollow piston rod 18. This piston rod is guided 18 in a central bore 19 of the container partition 7, the two annular grooves 20a, b for receiving sealing rings 21a, b. About their cavity 22 and from This near the closed rod end 16 openings leading radially outward 23 are the container sections intended for receiving the rocket fuel 12 and 14 connected to each other. Between the for the intake of the inert compressed gas certain container sections 13 and 15 is also connected, and namely through a cavity 22 of the piston rod 18 that is open on both sides Tube 24.

Of the two partly immobile, partly with the associated piston 8, 9 movable rolling membranes 10, 11 is one (10) with its immovable Part 10a in the area of the inlet-side container end wall 3, the other (11) with its immovable part 11a fixed in the area of the container end wall 7 on the container jacket.

Each of these immovable membrane parts 10a to 11a forms with the When the container 1 is full, the associated movable membrane part is turned inside out, which is characterized by lOb or 11b, one in the adjoining fuel-filled Container section 12 or 14 protruding, accessible only for pressurized gas Annular space 25 or 26. In each annular space 25, 26 there is a loose piston skirt 27, 28, which is provided with pulleys 29, 30 at its end facing the membrane fold is. The piston skirt 27 adjacent to the inlet-side container end wall 3 has in addition, a cover plate 31, at that end which from from the eversion of the associated rolling membrane 10 resulting membrane fold, turned away is. The end cap 31 of the piston skirt 27 extends between the inlet-side container end wall 3 and adjacent diaphragm piston 8. In the center it has a nozzle 32 through which the pressurized gas flowing in at 5 to the last-mentioned membrane piston and via the in the piston rod 18 extending tubes 24 also to the container section 15 reached.

Patent claims:

Claims (4)

Claims 1. by means of compressed gas or the like conveying medium Removable container, especially for liquid rocket propellants, in which the Prevention of contact between the contents of the container to be emptied and the pumped medium at least one piston and one that is axially movable in part with the piston and immovable in part Rolling diaphragm are provided, thereby g e k e n n -z e i c h n e t that the immovable Diaphragm part (10a, 11a) in the vicinity of the feed (5. or 24) of the conveying medium or a subset of the same is fixed on the container shell, while the axially movable membrane part (lOb, llb) only when the container (1) is empty The jacket is in full contact, but otherwise completely or in sections towards the inside is turned inside out and with the immobile membrane part (10a, 11a) one into the emptying container contents protruding, exclusively accessible for the pumped medium Annular space (25, 26) forms and that in this annular space (25, 26) a loose piston skirt (27, 28) is arranged, which with the everted axially movable membrane portion (lOb, llb) or its respectively everted section is in contact. 2. Container according to claim 1, characterized in that g e k e n n z e i chn e t the loose piston skirt (27, 28) at that end which is the one resulting from the eversion Membrane fold is facing, is provided with pulleys (29, 30). 3. Container according to claim 1 or 2, characterized in that g e k e n nz e i c h n e t that the loose piston skirt (27, 28) at that end that is from the eversion resulting membrane fold is facing away, has a cover (31) which Diaphragm piston (8) and supply (5) for the conveying medium separates from each other and that the End cover <31) one or more nozzle-shaped bores (32) or the like with a small cross-section or overall cross-section compared to the cap owns. 4. Container according to one or more of claims 1 to 3, of which both end walls, one a pumped medium inlet, the other an outlet for has the container content to be conveyed, thus not indicated, that the immovable part (10a) of a first rolling diaphragm (10) in the area of the inlet side Container front wall (3), the one (lla) of a second rolling membrane (11) in the middle Container area is fixed on the container jacket, which the moving parts (lOb, llb) pistons (8, 9) assigned to both rolling diaphragms (10, 11), each at one end a common, hollow piston rod (18) are attached, the hollow piston rod (18) in a central bore (19) between the two pistons (8, 9) Container partition (7) is tightly guided, the rod cavity (22) at its the inlet diaphragm piston (8) associated end (10) closed at its diaphragm piston close to the outlet (9) associated end (17), however is open, the container section (14) between the outlet-side diaphragm piston (9) and corresponding container end wall (2) over and from the rod cavity (22) near its closed end (16) with radially outwardly leading openings (23) the container section (12) between the container partition (7) and the inlet-side membrane piston (8) communicates, and that through the cavity (22) of the piston rod (18) on both sides open tube (24) extends from the container section (13) between the inlet side Diaphragm piston (8) and the corresponding container end wall (3) goes out and in the container section (15) opens between the container partition (7) and the outlet-side membrane piston (9). Blank page