DE2735118A1 - Propellant container for rockets - with oblique holes in bottom to impart spin to achieve greater altitude - Google Patents

Abstract

A rocket for fireworks, signaling or life-savin purposes has a cylindrical container for the propellant, consisting of side walls and a base wall. One of the walls, for example the base, has through holes which are symmetrical to the centre line but describe an angle of 5-30 degrees (15-25 degrees) with it. The escaping propellant imparts a spin to the rocket so that it revolves around its axis. It thus reaches a greater height than a conventional rocket without spin.

Description

Cell, especially rocket cell

The invention relates to a cell, in particular a rocket cell or the like, with a cylindrical fuel container having a base wall and a has a cylindrical side wall.

It has been shown that a rocket, which is due to a spin rotates around its longitudinal axis during its flight, can reach a greater height as a rocket that doesn't spin on itself like that.

The present invention is therefore based on the object of a To create a cell that is suitable as a missile cell and enables the missile to deliver a to reach greater height than a conventional missile.

To solve this problem, the invention provides that a the walls are provided with through openings, and that the axis of the missile cell and the axes of each of the openings are not parallel so that the fuel container during the burning of the fuel present in it during use of the flight rotates around its axis due to the resulting spin.

In a particularly preferred embodiment it is provided that the openings extend through the base wall; that the openings with respect to the Center of the base wall are arranged symmetrically; and that the openings have axes, with respect to the axis of the cylindrical fuel tank or one to this parallel line at an angle so that the base wall as a whole is rotationally symmetrical to the axis of the fuel tank.

A particularly preferred embodiment of the invention provides that the cell is used as a rocket cell, the explosive material or fuel contains. Such a missile according to the invention reaches a greater height than one similar missile without the openings mentioned.

Further preferred embodiments of the invention are characterized by this from the fact that three openings are provided, each opening being circular Has cross-section, and that the longitudinal axis of each opening with respect to a substantially line parallel to the axis of the fuel tank at an angle runs from 5 ° to 300.

By varying the angle of each opening, the height respectively. The total height that the missile can reach in flight can be changed. A bigger one Height is usually achieved through a larger angle. The bigger the angle is, the greater the stabilizing effect on the missile. An angle of about 150 is normally suitable for rocket cells for use in fireworks rockets or signal or rescue missiles for shipping. Such an angle can allow the missile to reach an altitude of 500 to 600 feet (about 150 to 185 m).

0 An angle of about 25 is typically used for military applications used, for example, when the payload cell is a parachute and a flare or contains another payload, and enables the missile to reach an altitude of 1000 to 2000 feet (about 305 to 610 m) to reach.

In a further preferred embodiment it is provided that a cylindrical payload cell has a base wall and a detachable cover, and that the base wall of the payload cell with the cylindrical fuel container is to be brought into engagement.

Further preferred embodiments provide that the diameter of the payload cell is essentially the same as the diameter of the cylindrical fuel tank corresponds to the fact that the base of the payload cell is provided with a cylindrical extension to be inserted into the free end of the cylindrical fuel tank, and that the approach has a smaller diameter than the edge of the payload cell, so that the cylindrical extension to insert into the free end of the fuel tank is.

It is preferably also provided that the base of the payload cell has a through opening for receiving a detonator, in order to use a To allow ignition of the fuel and that the opening is one of the type of fuel and the detonator has an adapted length, to use a prevent the contents of the fuel tank from igniting prematurely.

According to another embodiment it is provided that when in use of the cell as a missile cell for military applications, usually a Payload is inserted into the payload cell, the base of the work space cell is essential longer than the approach, with the opening extending through the base and its approach extends to prevent premature ignition of the contents and easy Allow detachment of the payload cell from the fuel tank.

According to further embodiments of the invention it is provided that the cylindrical fuel container, the payload cell and the lid as manufacturing materials Contains polypropylene, polyethylene, ABS, nylon or urea resins. For applications where, because of the nature of the fuel, the fuel tanks are at high temperatures has to withstand, is the fuel tank according to a further embodiment compression molded, for example from urea resins or glass-filled plastic materials.

The fuel used in connection with the cell is preferred compressed, such as extruded, has a cylindrical shape and is intended for use in the fuel tank.

According to further embodiments it is provided that the fuel has a frustoconical recess extending in the fuel from its base extends out, and that the fuel is enclosed in a protective cover, for example a protective cover made of cardboard, aluminum foil or paper.

Further embodiments are characterized in that the cylindrical Fuel tank is provided with a spacer that is in the fuel tank Prevents contained fuel from contacting the openings, and that the Protective cover extends beyond the base of the propellant, around the propellant to keep it at a distance from the base wall of the fuel tank when in use, whereby the need to place a spacer is obviated.

Further advantages and features of the invention emerge from the claims and from the following description, in the exemplary embodiments based on a Drawing are explained in detail. It shows: Fig. 1 an elevation section of a Fuel tank of a first embodiment of the cell according to the invention; Fig. 2 is a plan view of the base wall of the fuel tank of Fig. 1; Fig. 3 is an elevational section through the payload cell of the first embodiment of FIG Cell; FIG. 4 shows a front elevation section through the cover for the payload cell according to FIG. 3; Figure 5 is an elevational view, partly in section, of a cylindrical fuel container a second embodiment of the cell according to the invention; Fig. 6 is an elevational section through the base wall of the fuel container according to FIG. 5 on an enlarged scale; 7 shows a plan view of the base wall of the fuel container according to FIG. 5 in enlarged scale; 8 is a partially sectioned side view of a payload cell the cell of the second embodiment; Fig. 9 is a partial sectional elevation view of the cover for the payload cell according to FIG. 8; Fig. Figure 10 is an elevation view of a protective cover containing propellant for insertion in the fuel tank according to FIG. 5; Fig. 11 is an elevational view, partly in section a launcher with a missile arranged therein with the cell of the first or second embodiment; Figure 12 is an elevational section of a conical nose cap for use in connection with the cell of the first or second embodiment; and Fig. 13 is an elevational section of a semicircular nose cap for use in conjunction with the cell of the first or second embodiment.

The drawing shows in FIGS. 1 to 4 a container for a missile, such as a fireworks or signal or rescue rocket for seafaring The cell has a cylindrical fuel container 1 for receiving Fuel, a cylindrical payload cell 2 for receiving a signal bullet, a flare or the like and a cover 3. The fuel container 1, the payload cell 2 and the lid 3 are made of plastic, such as polypropylene, polyethylene, ABS or nylon. Parts 1, 2 and 3 can be joined together to create a to form cylindrical rocket cell.

The cylindrical fuel tank 1 has cylindrical side walls, a base wall 4 and an upper end, the base wall 4 having a centrally arranged, has cylindrical spacer 5, which extends over a small distance into the Interior of the fuel tank 1 extends, as well as three through openings 6, the each have a circular cross-section and extend over the entire thickness the Base wall 4 extend. Each opening 6 is equidistant from the center the base wall 4 and from the adjacent openings 6 and extends through the base wall 4 at an angle of preferably 5 to 200, in the present embodiment at an angle of 150 ° with respect to a line that is substantially parallel runs to the axis of the fuel tank 1. Each opening 6 extends below an angle in the same direction along an imaginary circle passing through the opening mouth of each opening 6 passes therethrough; that is, the base wall 4 as Whole rotational symmetry around the axis of the fuel tank 1 possesses. The purpose of the spacer 5 is to prevent inside the fuel tank arranged, compressed, such as extruded, fuel with the Openings 6 comes into contact. If necessary, a sealant can be placed in the space between the base wall 4 and the free end of the spacer 5 are arranged to a To facilitate ignition of the fuel and to prevent the fuel from using the openings 6 comes into contact or clogged them. However, if there is further burning of fuel is required, the fuel container 1 is not provided with a spacer 5 provided.

The payload cell 2 has a bottom 7 and an upper end. A cylindrical extension 8 extends perpendicular to the bottom 7 to the outside and acts telescopically with the upper end of the fuel tank 1 together. A central one The passage opening 9 for a combustion igniter extends coaxially to the axis of the fuel tank 2 through the base wall 7 and the extension 8. When the igniter is placed in the opening 9 is, the contents of the fuel tank 2 can be ignited. The length of the opening depends on the type of fuel and detonator used customized, to prevent premature ignition of the contents. The payload cell 2 can, for example Contain flares or signal balls, depending on their use as fireworks or signal rocket.

The lid 3 has a closing element in the form of a rice-shaped one Plate 10, which has a circular hollowed-out circumferential extension that extends extends from one side of the plate 10 such that the projection 11 with the payload cell 2 engages and the underside of plate 10 at the top of the payload cell 2 engages when the cover 3 is arranged on the payload cell 2.

A second embodiment of a rocket cell according to the invention for a flare and a parachute are shown in FIGS. the Cell has a fuel tank 12, a payload cell 13 and a lid 14. The payload cell 13 and the cover 14 are made of plastic such as polypropylene or polyethylene, whereas the fuel tank 13 is compression molded, namely for example from urea resins, so that when using the one described below Fuel is particularly heat-resistant. As in the first embodiment the fuel tank 12 of the cell of the second embodiment has three openings 15 extending through its base wall 16 at an angle of 150 with respect to a Line extending substantially parallel to the axis of the fuel tank 12 runs.

Alternatively, the angle could also be 250. Each opening 15 is likewise from the center of the base wall 16 and from the adjacent openings 15 removed and runs at a rectified angle along an imaginary Circle which passes through the outlet mouths of each opening 15. The base wall 16 as a whole has rotational symmetry about the axis of the Fuel tank 12. In this embodiment, however, the base wall 16 is not provided with a spacer.

The payload cell 13 is cylindrical and has an elongated Bottom 17, which is provided with an extension 18.

The extension 18 extends essentially perpendicular to the floor 17 and has only a short length compared to the length of the bottom 17. A central one Opening 19 of circular cross-section for a detonator extends coaxially to the payload cell 13 through the bottom 17 and the extension 18. The opening 19 has a length as determined by the length of the bottom 17 and the extension 18, to prevent premature ignition of the fuel. The approach 18 has therefore a short length so that the payload cell 13 can be easily detached from the fuel tank 12 if this is desired during flight. The payload cell 13 contains in this embodiment a flare and a parachute, which are shown in the drawing.

The cover 14 is designed similar to the cover 3 and has a Closing element in the form of a circular plate 20, which is circular at its edge has hollowed approach 21, which is substantially perpendicular to one side the plate 20 extends and frictionally into the free end of the fuel tank 12 can intervene. The approach 21 engages the payload cell 13, so that the lower side of the plate 20 with the upper end of the payload cell 13 in engagement comes. -The free end of the extension 21 has an insert or a beveled outside Part 22 to enable the extension 22 to be positioned precisely on the payload cell 13 is. The angle of the insert part 22 with the axis of the cover is approximately 300.

A cylindrical protective sheath 24 that collapsed, cylindrical molded propellant 25 contains, has such dimensions that they into the interior of the fuel tank 12 can be fitted and only one such space at its Leaves end that is sufficient to receive the extension 18 of the payload cell 13. the Protective cover 24 extends beyond the bottom 26 of the fuel 25 to the Fuel 25 at a distance from the openings 15 in the base wall 16 of the fuel container 12 to hold. If desired, sealing material or fuses can be placed inside the protective cover 24 can be arranged under the fuel 25.

The fuel 25 has a frustoconical recess 27 which extends into the fuel 25 from the bottom 26. The frustoconical recess 27 is coaxial with the fuel 25 and extends over 4/5 of its length. Of the Bottom 26 of the fuel 25, at which the recess 27 has its widest point, is dimensioned so that it covers a portion of each of the openings 15 in the bottom 16 can lie.

Alternatively, the cover 3 or 14 of the payload cell 2 or 13 of the first or second embodiment by a conical cover 38 or a semicircular one Cover 39 (Fig. 12 or Fig. 13) can be replaced.

The conical lid 38 has a closing element in the form of a ohlkonus 40, which is at an angle of 300 with respect to the base of the cone extends. Another preferred angle is 450. The base of the cone is internal flared and a lug 41 extends perpendicularly from the inner periphery of the base such that a Part of the base of the cone at the top of the payload cell 2 or 13 engages when the cover 38 frictionally fits into the free end of the payload cell 2 or 13 is used. The interior of the hollow cone 40 is in communication with the Inside of the approach 41, for example via an opening to an additional To obtain usable space for the payload of the payload cell 2 or 13.

The semicircular lid 39 has a closing element in the form of a semicircular end 42 which has an angle of, for example, 1.1 radians. A Hollow extension 42 runs perpendicularly from the inner circumference of the end 42 to frictionally into the free end of the payload cell 2 or

13 to be able to intervene, so that part of the base of the end 42 on attacks the upper end of the payload cell 2 and 13, respectively.

If desired, the approach can be an insert or a beveled one Have part that corresponds to the insert or tapered part 22 of the cover 14.

In use, the rocket cell according to the first or second embodiment shot down as a unit, the approach 8 or 18 of the payload cell 2 or 13 in the free end of the fuel tank 1 or 12 and the extension 11 or 21 of the lid 3 or 14 inserted into the free end of the fuel tank 2 or 13, respectively is. The fuel tank 1 or 12 is filled with suitable fuel 25, for example filled with an extruded propellant, the spacer member 5 of the cell according to FIG the first embodiment or the protective cover 24 of the cell according to the second Embodiment the fuel before contact with the openings 6 and 15, respectively in the base wall 4 or 16 of the fuel tank 1 or 12 protects. A detonator is in the opening 9 or 19 of the payload cell 2 or 13 like that arranged that the detonator by means of explosive material the contents of the fuel container 2 or 13 can ignite, from which the release of the cover 3 or 14 from the payload cell 2 or 13 and the imposition of the content results from the same. The so from the Cell according to the first or second embodiment formed rocket 28 is Fired using an acid vial with the missile 28 in a launcher 29 is fitted, which has a cylindrical base 30 with a cylindrical Launch tube is connected. The rocket 28 rests on a red fuse 32, which in turn rests on a cylindrical flange 33 which has a central opening 34. A Igniter 35 leads through opening 34 into flange 33 and rests on the acid ampoule 36.

That part of the acid ampoule 36 that is in contact with the igniter 32 has a resin-chlorate coating 37. The inner surface of the base member is provided with a Point 38 'provided so that the point 38' the acid vial 36 when firing pierces, which ignites the resin-chlorate coating 37, which over the igniter 35 and the igniter 32 in turn ignites the propellant in the missile 28.

To facilitate the ignition of the fuel and to prevent it a contact between the fuel and the openings in the base wall 4 and 16, respectively of the waste material container 1 or 12 can be arranged in the latter sealing material, namely in the cell according to the first embodiment between the base wall 4 of the fuel container 1 and the free end of the spacer member 5, and in the Cell according to the second embodiment between the base wall 1G of the fuel tank 12 and the base 26 of the fuel set 25.

The missile can, of course, be made by any other suitable method or method Fired or shot down any other suitable means will, for example by using an electric launcher or a Cartridge. If the rocket is ejected electrically, a detonator can be placed in the fuel container be placed below the fuel, i.e. in the first embodiment between the base wall 4 and the free end of the spacer 5, and at the second Embodiment between the base 16 and the base 26 of the fuel 25, the necessary lines running through the openings in the base 4 and 16, respectively can.

A cell according to the invention has openings in the base wall 4 or 16 of their fuel tank 1 or 12, so that the cell due to the spin can rotate on its axis when it is shot down or fired, causing it as a rocket cell can reach a good height. This increases this spin effect the height that the rocket cell can reach in flight is considerable. Depending on The use of the cell can include the angle of the openings and / or the type of cell to be changed.

As is readily apparent, the cell can serve many purposes can be used, for example as a rocket cell for fire, smoke or lightning generators Sea signal missiles. The cell can be used for military applications, with the payload cell 2 or 13 a densely packed payload like a flare or may contain a flare and a parachute. The number and angles of the Openings, the shape of the fuel tank, its material, the fuel and The contents of the payload cell can be seen to be changed if considerations make this seem necessary.

Claims (43)

A n 5 p r ü c h e cell, in particular a rocket cell or the like with a cylindrical fuel container that has a base wall and a cylindrical Has side wall, thereby marked. draws that one of the walls (e.g. 4; 16) with through openings (6; 15) is provided; and that the axis of the missile cell and the axis of each of the Openings (6; 15) are not parallel, so that the fuel tank (1; 12) during the burning of the fuel (25) present in it during use of the flight rotates around its axis due to the resulting spin. 2. Cell according to claim 1, characterized in that the openings (6; 15) extending through the base wall (4; 16); that the openings (6; 15) with respect to the center of the base wall (4; 16) are arranged symmetrically; and that the openings (6; 15) have axes relative to the axis of the cylindrical fuel container (1; 12) or a line parallel to this run at an angle, so that the base wall (4; 16) has as a whole rotational symmetry to the axis of the fuel container (1; 12). 3. Cell according to claim 1 or 2, characterized in that three Openings (6; 15) are provided, each opening (6; 16) being circular Has cross-section. 4. Cell according to one of claims 1 to 3, characterized in that that the longitudinal axis of each opening (15; 15) with respect to a substantially parallel to the axis of the fuel tank (1; 12) extending line at an angle runs from 0 50 to 30. 5. Cell according to claim 4, characterized in that the longitudinal axis each opening (6; 15) with respect to a substantially parallel to the axis of the waste material container (1; 12) running line at an angle of 5 ° to 200. 6. Cell according to claim 5, characterized in that the longitudinal axis of each opening (6; 15) with respect to a substantially parallel to the axis of the fuel tank (1; 12) running 0 line at an angle of 15. 7. Cell according to claim 4, characterized in that the longitudinal axis each opening (6; 15) with respect to a substantially parallel to the axis of the fuel tank (1; 12) running line at an angle of 250. 8. Cell according to one or more of the preceding claims, characterized characterized in that the fuel container (1; 12) is provided with a spacer member (5) is, the fuel (25) possibly contained in the fuel tank (1; 12) prevents contact with the openings (6; 15). 9. Cell according to one of the preceding claims, characterized in that that the fuel container (1; 12) consists at least partially of plastic. 10. Cell according to claim 9, characterized in that the fuel container (1; 12) consists at least partially of polypropylene, ABS or nylon. 11. Cell according to claim 9, characterized in that the fuel tank (1; 12) consists at least partially of polyethylene. 12. Cell according to claim 9, characterized in that the fuel container (1; 12) consists at least partially of urea resin. 13. Cell according to claim 9, characterized in that the fuel tank (1; 12) consists at least partially of glass-filled or glass-reinforced plastic. 14. Cell according to claim 12 or 13, characterized in that the Fuel container (1; 12) is compression molded. 15. Cell according to one or more of the preceding claims, characterized characterized in that a cylindrical payload cell (2; 13) is provided which has a bottom (7; 17) and a detachable cover (3; 14; 38; 39), and that the The bottom (7; 17) of the payload cell (2; 13) engages with the fuel tank (1; 12) is to bring. 16. Cell according to claim 15, characterized in that the diameter of the payload cell (2; 13) essentially corresponds to the diameter of the fuel tank (1; 12) corresponds. 17. Cell according to claim 15 or 16, characterized in that the The bottom (7; 17) of the payload cell (2; 13) is provided with a cylindrical extension (8; 18) is, which can be inserted into the free end of the fuel container (1; 12). 18. Cell according to claim 17, characterized in that the approach (8; 18) has a smaller diameter than the edge of the payload cell (2; 13). 19. Cell according to one or more of claims 15 to 18, characterized characterized in that the bottom (7; 17) of the payload cell (2; 13) has a through opening (9; 19) has to accommodate a detonator in order to ignite the contents when in use of the fuel tank (2; 13) to enable. 20. Cell according to claim 19, characterized in that the opening (9; 19) extends coaxially to the fuel tank (2; 13). 21. Cell according to claim 19 or 20, characterized in that the Opening (9; 19) a length adapted to the type of fuel (25) and the igniter to prevent premature fuel ignition when in use. 22. Cell according to one or more of claims 15 to 21, characterized characterized in that the cover (3; 14; 38; 39) has a closing element (10; 20; 40; 42) with a projection (11; 21; 41; 43) which is substantially perpendicular to one side of the closing element (10; 20; 40; 42) extends, and the one for the frictional connection Engagement with the free end of the payload cell (2; 13) is provided. 23. Cell according to claim 22, characterized in that the closing element is a circular plate (10; 20). 24. Cell according to claim 22, characterized in that the closing element (40) is conical. 25. Cell according to claim 22, characterized in that -the closing element (42) is semicircular. 26. Cell according to one of claims 22 to 25, characterized in that that the free end of the extension (11; 21; 41, 43) has an outer insert or a beveled one Section (22) has. 27. Cell according to claim 26, characterized in that the insert part or the section (22) an angle of approximately 300 to the axis of the cover (3; 14; 38; 39) forms. 28. Cell according to one or more of claims 15 to 27, characterized characterized in that the payload cell (2; 13) is at least partially made of plastic consists. 29. Cell according to one or more of claims 15 to 28, characterized characterized in that the cover (3; 14; 38; 39) is at least partially made of plastic consists. 30. Cell according to one of claims 15 to 29, characterized in that that the payload cell (2; 13) at least partially made of polypropylene, ABS or nylon consists. 31. Cell according to one of claims 15 to 29, characterized in that that the plastic material contains polyethylene. 32. Cell according to one or more of the preceding claims, characterized by using it as a rocket cell with propellant (25). 33. missile cell according to claim 32, characterized in that the Propellant (25) is compressed, has a cylindrical shape and is ready for use is provided in the fuel tank (1; 12). 34. Rocket cell according to claim 32 or 33, characterized in that that the propellant (25) one is from its bottom from extending Has frustoconical recess (27). 35. Rocket cell according to one of claims 32, 33 or 34, characterized characterized in that the propellant (25) is enclosed in a protective cover (24) is. 36. missile cell according to claim 35, characterized in that the Protective cover (24) extends beyond the bottom (26) of the fuel (25), around the fuel (25) when in use at a distance from the base wall (4; 16) of the fuel container (1; 12) to hold. 37. Missile cell after one or more of the one or more Claims 32 to 36 referring back to claims 15 to 31, characterized in that that the payload cell (2; 13) contains a light projectile. 38. Missile cell after one or more of the one or more Claims 32 to 36 referring back to claims 15 to 31, characterized in that that the payload cell (2; 13) contains a flare. 39. Missile cell after one or more of the one or more Claims 32 to 36 referring back to claims 15 to 31, characterized in that that the payload cell (2; 13) contains a parachute and a flare. 40. rocket cell according to one or more of claims 32 to 39, characterized in that the missile (28) is a distress signal missile or the like. is. 41. Rocket cell according to one or more of claims 32 to 39, characterized in that the rocket (28) is a firework rocket is. 42. Rocket cell according to one or claims 32 to 36, characterized in that that the rocket (28) is a smoke generator. 43. Rocket cell according to one of claims 32 to 36, characterized in that that the rocket (28) is a lightning generator.