JP3788821B2 - Ram Rocket - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a ram rocket that obtains thrust by mixing and combusting a combustible gas generated from solid fuel and air after starting and accelerating with a booster propellant.
[0002]
[Prior art]
This type of ram rocket is equipped with a gas generator loaded with solid fuel, a combustor loaded with booster propellant, and a jet nozzle in order from the head side, and air is introduced into the combustor on the side. A plurality of diffusers are provided. The solid fuel of the gas generator has an excess fuel composition and generates a combustible gas. In addition, a combustible gas injection injector having a large number of injection holes is provided at the tail of the gas generator, and this injector protrudes from the head of the combustor along the axis into the combustor. It is provided in the state.
[0003]
The above ram rocket starts by igniting the booster propellant in the combustor and accelerates to the supersonic range. When the ram rocket is accelerated to the supersonic range, the combustible gas generated from the solid fuel in the gas generator is injected from the injector. And the air introduced from the diffuser are continuously mixed and burned, and the combustion gas is ejected from the jet nozzle to obtain thrust.
[0004]
Such a ram rocket is described, for example, in pages 140 to 146 of “Missile Engineering Encyclopedia” issued by Hara Shobo in 1990.
[0005]
[Problems to be solved by the invention]
However, since the conventional ram rocket as described above has a structure in which the injector is protruded into the combustor, the injector is protected from the heat generated by the combustion of the booster propellant in the combustor and the combustor. In order to maintain the airtightness of the head side, it is necessary to cover the injector with a heat-resistant cover. The injectors inject high-temperature combustible gas generated by a gas generator, but if you do not use a heat-resistant cover, you will be exposed to high heat for a long time from the time of combustion of the booster propellant, Since it may be damaged by the heat, it is protected with a heat-resistant cover. In addition, the heat-resistant cover will be removed when the booster propellant is burned and released to the outside. At this time, the heat-resistant cover may damage the jet nozzle, etc. It was a challenge to do.
[0006]
OBJECT OF THE INVENTION
The present invention has been made paying attention to the above-described conventional problems, and can protect the injector for injecting flammable gas from the heat during combustion of the booster propellant without using a heat-resistant cover. The purpose of the present invention is to provide a ram rocket capable of eliminating the situation where the jet nozzle is damaged by the abolition of the cover.
[0007]
[Means for Solving the Problems]
A ram rocket according to the present invention comprises, as claimed in claim 1, a gas generator loaded with a solid fuel for generating a combustible gas, a combustor having an air inlet and loaded with a booster propellant, and gas generation. Between the combustor and the combustor, and a movable injector for injecting combustible gas that is hermetically accommodated with respect to the head partition of the combustor and is pressed by the pressure of the combustible gas and protrudes from the head partition into the combustor As a second aspect of the present invention, the movable injector includes a shaft portion having a combustible gas flow path and penetrating the head partition wall of the combustor so as to be movable in the axial direction, and the combustor side of the shaft portion. A disc portion for flammable gas diffusion concentrically provided at the end of the cylinder and a stopper for restricting the protruding position in the combustor, and the head partition wall is opened in the combustor and the inner peripheral surface Of the disk part that is in airtight contact with the outer peripheral surface of the disk part According to a third aspect of the present invention, there is provided a configuration in which a projection for flammable gas diffusion is provided on the surface of the disc portion on the shaft side, and as a fourth aspect, the projection for flammable gas diffusion is radial. The wing for diffusion having a twist and a structure in which the shaft portion is rotatably held, and the surface on the shaft portion side of the disk portion has a tapered shape with a small diameter on the shaft portion side. The above-described configuration is used as a means for solving the problem.
[0008]
[Effects of the Invention]
In the ram rocket according to claim 1 of the present invention, at the stage of starting and accelerating the combustion of the booster propellant, the movable injector is hermetically sealed between the gas generator and the combustor against the head partition wall of the combustor. Thus, the airtightness of the combustor head side is maintained, and the main body portion of the movable injector is protected from the heat in the combustor.
[0009]
In addition, after combustion of the booster propellant, flammable gas is generated by the solid fuel in the gas generator, the pressure causes the movable injector to protrude from the head bulkhead into the combustor, and flammability is injected from the movable injector. The gas and air introduced from the air inlet are continuously mixed and burned to continue flying.
[0010]
In the ram rocket according to claim 2 of the present invention, the movable injector is accommodated between the gas generator and the combustor in the starting and accelerating stages for burning the booster propellant, and the disk portion of the movable injector. The outer peripheral surface of the head and the inner peripheral surface of the housing portion of the head bulkhead are hermetically contacted, so that the shaft portion of the movable injector is protected from the heat in the combustor and the head side of the combustor is protected. Airtightness is maintained.
[0011]
After combustion of the booster propellant, the movable injector is pressed against the combustor side by the pressure of the combustible gas generated by the gas generator, and the disk portion side of the movable injector protrudes from the head partition into the combustor. The projecting position is regulated by a stopper and the projecting position is regulated by the stopper, and the combustible gas injected from the movable injector and the introduced air are continuously mixed and burned to continue flying. At this time, the movable injector diffuses the combustible gas that has passed through the flow path of the shaft portion by colliding with the disk portion, thereby promoting the mixing of the combustible gas and air.
[0012]
In the ram rocket according to claim 3 of the present invention, in a state where the movable injector is protruded into the combustor, the diffusion of the combustible gas is further promoted by the protrusion provided on the disk portion.
[0013]
In the ram rocket according to claim 4 of the present invention, the diffusion blades having a twist in the disk portion are arranged radially and the shaft portion is rotatably held, so that the movable injector protrudes into the combustor. When the flammable gas collides with the disk portion, the movable injector rotates, thereby further promoting the diffusion of the flammable gas.
[0014]
In the ram rocket according to claim 5 of the present invention, since the surface of the disk portion on the shaft portion side is tapered, the diffusion of combustible gas is promoted and the flow in the axis direction is smoother.
[0015]
【The invention's effect】
According to the ram rocket according to claim 1 of the present invention, the movable injector is hermetically accommodated between the gas generator and the combustor with respect to the head bulkhead. Without using a heat-resistant cover, airtightness on the head side of the combustor can be maintained, and the main body portion of the movable injector can be protected from heat in the combustor. Further, with the abolition of the heat-resistant cover, it is possible to eliminate a situation in which the jet nozzle or the like is damaged by the released heat-resistant cover.
[0016]
Furthermore, according to the ram rocket, since the movable injector is housed in the head bulkhead side, the booster propellant in the combustor can be increased in comparison with the conventional case where the injector is provided in a protruding state in the combustor. It becomes possible to attach an igniter for booster propellant ignition to the end of the movable injector on the combustor side, and because the movable injector protrudes into the combustor using the pressure of combustible gas, There is no need to provide another means for moving the movable injector, and the number of parts can be reduced and the structure can be simplified.
[0017]
According to the ram rocket according to claim 2 of the present invention, the same effect as that of claim 1 can be obtained, and the combustible gas injected by the disk portion can be diffused well, whereby combustible. Mixing of the gas and the introduced air can be promoted, and the combustion efficiency can be improved. Further, by causing the high-temperature combustible gas to collide with and diffuse the disk portion, it is possible to prevent direct combustion of the combustible gas to the heat insulating material provided on the inner surface of the combustor and to prevent the heat insulating material from being burned out.
[0018]
According to the ram rocket according to claim 3 of the present invention, the same effect as in claim 2 can be obtained, and the diffusion of the flammable gas can be further promoted by the protrusion provided on the disk part, It is possible to further increase the combustion efficiency by further promoting the mixing.
[0019]
According to the ram rocket according to claim 4 of the present invention, the same effect as that of claim 3 can be obtained, and the combustible gas is injected while the movable injector rotates, so that the diffusion of the combustible gas is further promoted. The combustion efficiency can be further improved, diffusion can be promoted to prevent partial burning of the movable injector, and flame holding can be performed upstream of the movable injector. Is also possible.
[0020]
According to the ram rocket according to claim 5 of the present invention, the same effects as those of claims 2 to 4 can be obtained, and the diffusion of the combustible gas is promoted by the disk portion having the tapered surface and the axial direction. The flow can be made smoother.
[0021]
【Example】
1 to 3 are diagrams for explaining an embodiment of a ram rocket according to claims 1 to 4 of the present invention.
[0022]
A ram rocket R shown in FIG. 1 includes, in order from the head side on the left side of the figure, a payload mounting portion 1, a gas generator 3 loaded with a solid fuel 2, a combustible gas flow regulator 4, a movable injector 5, and a solid. A combustor 7 loaded with the booster propellant 6 and a jet nozzle 8 are provided, and a plurality of diffusers 9 for introducing air into the combustor 7 are provided on the side portion.
[0023]
The solid fuel 2 has an excess fuel composition, and generates a combustible gas by performing primary combustion. The gas generator 3 forms a primary combustion chamber 10 in which the solid fuel 2 is loaded, and further includes an igniter (not shown) for solid fuel ignition.
[0024]
The flow rate regulator 4 drives a supply pipe 11 having a flammable gas supply path 11a at the center, a rotary valve 12 having a tapered supply path 12a having a large diameter on the gas generator 3 side, and the rotary valve 12. And a control device (not shown). The rotary valve 12 is disposed in the middle of the supply path 11a of the supply pipe 11, and is rotatably supported in the supply pipe 11 by axial shaft portions 12b and 12b orthogonal to the machine axis.
[0025]
As shown in FIG. 2, the movable injector 5 includes a shaft portion 15 having a combustible gas flow path 13 and penetrating the head partition 14 of the combustor 7 so as to be movable in the axis direction. A combustible gas diffusion disk portion 16 provided concentrically at the end on the combustor side and a stopper 17 for restricting the protruding position in the combustor 7 are provided.
[0026]
The shaft portion 15 is a cylinder having a flow path 13 on the axis, and has a flange-like stopper 17 at the end portion on the gas generator 3 side, and a plurality of injection holes near the end portion on the disk portion 16 side. 18. The injection hole 18 is formed so as to be inclined toward the disk portion 16.
[0027]
The shaft portion 15 is held so as to be movable and rotatable in the machine axis direction by a holder 19 that is coaxially connected between the supply pipe 11 and the head partition wall 14 and supplies an end portion on the stopper 17 side. The tube 11 is slidably inserted into the supply path 11a of the tube 11. At this time, the stopper 17 is opposed to the end surface 19a of the holder 19 on the gas generator 3 side. A bearing 20 that holds the outer peripheral portion of the stopper 17 in contact with the end surface 19a is provided inside the end portion of the supply pipe 11 on the holder 19 side.
[0028]
The disk portion 16 closes the end portion of the shaft portion 15 on the combustor 7 side, and is radially disposed as a gas diffusion protrusion on the surface of the shaft portion 15 side shown in FIG. 4 and twisted. A plurality of diffusion blades 21 are provided. With respect to the disk portion 16, the head partition wall 14 is formed with a housing portion 22 opened in the combustor 7 in a concave shape, and the outer peripheral surface of the disk portion 16 is formed on the inner peripheral surface of the housing portion 22. A seal ring 23 is provided in airtight contact with the seal ring 23. Note that a heat insulating material or the like may be provided on the surface of the disk portion 16 on the combustor 7 side so as to withstand the heat generated when the booster propellant 6 is burned.
[0029]
In this manner, the movable injector 5 is hermetically accommodated between the gas generator 3 and the combustor 7 with respect to the head partition 14 of the combustor 7 and is rotatably held around the axis. It is. As shown in FIGS. 1 and 2, in a state where the disk portion 16 is housed in the housing portion 22, the inner surfaces of the disk portion 16 and the head partition wall 14 are in the same plane, and the head partition wall 14 The injection hole 18 is closed, and the stopper 17 is spaced from the end surface 19 a of the holder 19 and close to the rotary valve 12.
[0030]
The combustor 7 is provided with a heat insulating material 24 on the inner surface thereof, and is provided with an air introduction port 25 communicating with each diffuser 9 at an intermediate portion in the axial direction, and is loaded with a booster propellant 6 indicated by a virtual line in the figure. Is done. In addition, the ram rocket R has a configuration for boost flight, a port cover for closing the air inlet 25, a device for crushing the port cover, a booster nozzle removably attached to the inside of the jet nozzle 8, and a booster propellant ignition. The igniter is equipped.
[0031]
The ram rocket R having the above configuration transmits the booster propellant 6. At this time, the ram rocket R houses the movable injector 5 between the gas generator 3 and the combustor 7 in an airtight manner with respect to the head partition 14 of the combustor 7. The air tightness of the side is maintained, and the shaft portion 15 and the diffusion blade 21 of the movable injector 5 are protected from the heat in the combustor 7.
[0032]
Next, when the booster propellant 6 is combusted and the ram rocket R accelerates to a predetermined supersonic region, the ram rocket R ignites the solid fuel 2 of the gas generator 3 to cause primary combustion thereof to generate combustible gas. . Then, combustible gas flows into the flow path 13 of the movable injector 5 through the supply pipe 11 and the rotary valve 12, and the pressure on the gas generator 3 side is sufficiently higher than in the combustor 7 in which the combustion of the booster propellant 6 is completed. As shown in FIG. 3, the movable injector 5 is pressed toward the combustor 7 by the pressure of the combustible gas filled in the flow path 13. As a result, the movable injector 5 has the disk portion 16 protruding from the head bulkhead 14 into the combustor 7, the injection hole 18 being opened into the combustor 7, and the stopper 17 contacting the end surface 19 a of the holder 19. The projecting position in the combustor 7 is in contact with the regulated state.
[0033]
The ram rocket R injects combustible gas from the injection hole 18 of the movable injector 5 and continuously mixes the combustible gas with the air introduced through the diffuser 9 and the air inlet 25 in the combustor 7. The fuel is burned automatically, and the combustion gas is ejected from the jet nozzle 8 to obtain thrust and continue to fly.
[0034]
At this time, in the ram rocket R, the wings for diffusion 21 having a twist are radially arranged on the disk portion 16 of the movable injector 5 and the shaft portion 15 is rotatably held. , The movable injector 5 rotates, and the movable injector 5 injects combustible gas while rotating. Thereby, in the said ram rocket R, spreading | diffusion of combustible gas is accelerated | stimulated, mixing of combustible gas and air is further accelerated | stimulated, and favorable combustion efficiency is obtained.
[0035]
Thus, in the ram rocket R, when the booster propellant 6 is burned, the movable injector 5 is hermetically accommodated with respect to the head partition 14 between the gas generator 3 and the combustor 7. The conventionally used heat-resistant cover for protecting the injector is not necessary, and the situation in which the jet nozzle 8 or the like is damaged by the released heat-resistant cover with the abolition of the heat-resistant cover is eliminated.
[0036]
Further, in the ram rocket R, the movable injector 5 is projected into the combustor 7 using the pressure of the combustible gas, so there is no need to provide another means for moving the movable injector 5, By causing the high temperature combustible gas to collide with the rotating disk portion 16 and diffuse, the direct combustion of the combustible gas to the heat insulating material 24 in the combustor 7 can be prevented, and partial burnout of the movable injector 5 can also be prevented. In addition, flame holding can be performed on the upstream side of the movable injector 5.
[0037]
In the ram rocket R described above, the movement of the disk portion 16 is regulated by the booster propellant 6 itself loaded in the combustor 7 or by the pressure during combustion, so the movable injector 5 in the accommodated state is not fixed. Although there is no problem, in order to make the position regulation of the movable injector 5 more reliable, for example, the portion of the stopper 17 or the like is adhered with an adhesive force that can be peeled off by the pressure in the gas generator 3. May be fixed.
[0038]
In addition, in the disk portion 16, diffusion can be promoted by providing a protrusion that protrudes partially or continuously in addition to the diffusion blade 21. However, the diffusion blade 21 as in the above embodiment is formed. And if it is set as the structure which hold | maintained the axial part 15 rotatably, a spreading | diffusion function can be improved significantly.
[0039]
FIG. 5 is a view for explaining an embodiment of a ram rocket according to claim 5 of the present invention. Note that the same components as those in the previous embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
[0040]
That is, in the ram rocket of this embodiment, the surface on the shaft portion 15 side of the disk portion 16 in the movable injector 5 is a tapered surface 16a having a small diameter on the shaft portion 15 side. A plurality of diffusing wings 21 that are radially arranged and have a twist are provided as projections for use. Further, even in the accommodating portion 22 in the head partition 14, the shape capable of accommodating the disk portion 16 is formed. In the ram rocket, the diffusion of the combustible gas is promoted by the disk portion 16, and the flow of the combustible gas in the axial direction is smoothed by the tapered surface 16a of the disk portion 16.
[0041]
FIG. 6 is a view for explaining another embodiment of the ram rocket according to claims 1 to 4 of the present invention.
[0042]
In the ram rocket R of this embodiment, the protruding length of the flange-like stopper 17 in the movable injector 5 is longer than that of the previous embodiment (see FIG. 1). In the supply path 12a of the supply pipe 12, a plurality of flow paths 17a communicating in the machine axis direction are formed at predetermined intervals in the circumferential direction. Further, an annular flow path 26 is formed between the holder 19 and the head partition wall 14 and the shaft portion 15 so as to communicate from the supply path 12 a to the accommodating portion 22.
[0043]
In the ram rocket R, as shown in the upper half of the figure, the movable injector 5 is hermetically accommodated between the gas generator 3 and the combustor 7 with respect to the head partition 14 of the combustor 7. . As shown in the lower half of the figure, in a state where the disk portion 16 of the movable injector 5 is projected into the combustor 7, combustible gas is injected from the injection hole 18 through the flow path 13 of the shaft portion 15. On the other hand, the combustible gas is also injected from the path of the flow path 17 a, the annular flow path 26, and the accommodating part 22 in the stopper 17 of the shaft portion 15. The effect similar to the previous embodiment can be obtained by the ram rocket R according to this embodiment.
[Brief description of the drawings]
FIG. 1 is a sectional view for explaining an embodiment of a ram rocket according to claims 1 to 4 of the present invention.
FIG. 2 is an enlarged cross-sectional view of a movable injector portion of the ram rocket shown in FIG.
3 is a cross-sectional view illustrating a state in which the movable injector is pressed toward the combustor from the state shown in FIG.
4 is a front view for explaining a shaft side surface of a disk portion in the movable injector shown in FIG. 1; FIG.
FIG. 5 is a cross-sectional view of an essential part for explaining an embodiment of a ram rocket according to claim 5 of the present invention;
FIG. 6 is a diagram for explaining another embodiment of the ram rocket according to claims 1 to 4 of the present invention, in a state in which the movable injector is accommodated in the upper half, and in a state in which the movable injector protrudes in the lower half. FIG.
[Explanation of symbols]
R Ramrocket 2 Solid fuel 3 Gas generator 5 Movable injector 6 Booster propellant 7 Combustor 13 17a Flow path 14 Head bulkhead 15 Shaft portion 16 Disc portion 16a Tapered surface 17 Stopper 21 Diffusion blade (projection)
22 accommodating part 25 air inlet

Claims (5)

A combustor having a gas generator loaded with solid fuel for generating combustible gas, a combustor having an air inlet and loaded with a booster propellant, and between the gas generator and the combustor, the head of the combustor A ram rocket comprising a movable injector for injecting combustible gas, which is hermetically accommodated with respect to the partition wall and is pressed by the pressure of the combustible gas and protrudes from the head partition wall into the combustor. A movable injector has a combustible gas channel and a combustible concentrically provided at the combustor side end of the shaft that penetrates the head bulkhead of the combustor so as to be movable in the axis direction. It is equipped with a disk part for gas diffusion and a stopper that regulates the protruding position in the combustor. The head bulkhead is opened in the combustor and the inner peripheral surface is in airtight contact with the outer peripheral surface of the disk part. The ram rocket according to claim 1, further comprising a receiving portion for the disk portion to be operated. The ram rocket according to claim 2, wherein a projection for flammable gas diffusion is provided on a surface of the disk portion on the shaft side. 4. The ram rocket according to claim 3, wherein the flammable gas diffusion protrusions are radially arranged and twisted diffusion blades, and the shaft portion is rotatably held. The ram rocket according to any one of claims 2 to 4, wherein a surface of the disc portion on the shaft portion side has a tapered shape with a small diameter on the shaft portion side.

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