CN110645828A - Common rail type double-tube rail gun - Google Patents

Abstract

The invention belongs to the technical field of electromagnetic rail guns, and particularly relates to a common rail type double-tube rail gun. The common rail type double-tube rail gun provided by the technical scheme of the invention is mainly characterized in that the rail of the multi-tube emitter and the emitter are reasonably and structurally arranged according to the magnetic field distribution characteristics of the electromagnetic rail gun, so that the scheme of the common rail type double-tube rail gun emitter is formed, and the aims of increasing the inductance gradient and improving the emission efficiency are fulfilled. Meanwhile, the scheme can effectively improve the fire power density, thereby improving the comprehensive performance of the electromagnetic rail gun. The common rail type double-tube rail gun provided by the invention provides a new solution for the system integration of the electromagnetic rail gun and the improvement of the launching efficiency and the fire power density, and has very important significance for the engineering application of the electromagnetic rail gun.

Description

Common rail type double-tube rail gun

Technical Field

The invention belongs to the technical field of electromagnetic rail guns, and particularly relates to a common rail type double-tube rail gun.

Background

The electromagnetic orbital gun is a new-concept kinetic energy weapon for electromagnetic emission, and it utilizes the principle of that current-carrying conductor is stressed in magnetic field, and can break through the limit speed of 2.0km/s of traditional chemical propellant powder gun, and can accelerate the projectile to ultra-high speed. The rail gun can be applied to military operations such as air defense, counter navigation, counter ship and remote fire suppression, and has great significance for weapon innovation development, future war countermeasures and the like.

With the development of electromagnetic orbit emission technology, the research on the application thereof is receiving more and more attention. As with the conventional weapon development process, the firepower intensity of the firing weapon is an important index for measuring the firing weapon ability, the firepower intensity of the firing weapon is continuously improved, and the firepower intensity is also one of important trends of weapon development. The electromagnetic rail cannon in the prior art has a plurality of defects, and the low radio frequency is one of the fatal defects. The shortage of radio frequency is compensated by the concentration of firepower, which is one of means for improving the combat efficiency of the electromagnetic rail gun, and the multi-tube parallel transmission is an effective way for improving the firepower density. In addition, another important factor influencing the rail gun to become a weapon is the large size and low efficiency of a power supply system, so that the improvement of the energy conversion efficiency of the transmitter is one of important ways for reducing the size of the power supply system.

Disclosure of Invention

Technical problem to be solved

The technical problem to be solved by the invention is as follows: aiming at the problems of low radio frequency, huge power supply system and the like of the current electromagnetic rail gun, how to provide a common rail type double-tube rail gun which can effectively make up the low radio frequency of the electromagnetic rail gun and improve the energy conversion rate of a transmitter so as to reduce the scale of the power supply system.

(II) technical scheme

In order to solve the technical problem, the invention provides a common-rail type double-tube rail gun, wherein the tandem connection common-rail type double-tube rail gun comprises a pulse power supply system and a common-rail type double-tube rail emitter;

the common rail type double-pipe track transmitter comprises three tracks arranged in parallel, a first armature and a second armature; the three parallel rails are divided into a first outer rail, an inner rail and a second outer rail from one side to the other side; the first outer rail, the inner rail and the first armature form a first electromagnetic orbital cannon launcher, and the second outer rail, the inner rail and the second armature form a second electromagnetic orbital cannon launcher, so that two electromagnetic orbital cannon launchers sharing a middle rail and arranged in parallel are formed; the magnetic field generated by the current of the middle track of the two electromagnetic rail gun single tube transmitters sharing the middle track is commonly utilized by the two electromagnetic rail gun single tube transmitters;

the pulse power supply system group comprises two groups of pulse power supplies with the same parameters, the anodes of the two groups of pulse power supplies are connected to the inner rail in parallel, and the cathodes of the two groups of pulse power supplies are connected to the two outer rails respectively.

In addition, the invention also provides a common-rail type double-tube rail gun, wherein the tandem connection common-rail type double-tube rail gun comprises a pulse power supply system and a common-rail type double-tube rail emitter;

the common rail type double-pipe track transmitter comprises three tracks arranged in parallel, a first armature and a second armature; the three parallel rails are divided into a first outer rail, an inner rail and a second outer rail from one side to the other side; the first outer rail, the inner rail and the first armature form a first electromagnetic orbital cannon launcher, and the second outer rail, the inner rail and the second armature form a second electromagnetic orbital cannon launcher, so that two electromagnetic orbital cannon launchers sharing a middle rail and arranged in parallel are formed; the magnetic field generated by the current of the middle track of the two electromagnetic rail gun single tube transmitters sharing the middle track is commonly utilized by the two electromagnetic rail gun single tube transmitters;

the pulse power supply system group comprises two groups of pulse power supplies with the same parameters, the cathodes of the two groups of pulse power supplies are connected to the inner rail in parallel, and the anodes of the two groups of pulse power supplies are connected to the two outer rails respectively.

Wherein the pulse power supply includes: a capacitor, a thyristor switch, a diode and an inductor;

the charging and discharging of the capacitor are realized through the thyristor switch, the diode is used for executing forward conduction action to avoid the reverse charging of the capacitor, and finally the current waveform is adjusted by adjusting the size of the inductor;

when in work: firstly, the thyristor switch is disconnected, and the capacitor is charged by an external power supply; secondly, after the charging is finished, the charging circuit is disconnected, and the thyristor switch is kept disconnected to prevent the capacitor from discharging; and finally, when the shot is shot, closing the thyristor switch to discharge the external circuit.

When the pulse power supply works, the two groups of pulse power supplies discharge simultaneously, two paths of current flow into the inner rail, flow to the outer rail through the respective armatures of the two inner chambers respectively, and flow back to the respective power supplies through the two outer rails.

When the pulse power supply works, the two groups of pulse power supplies discharge simultaneously, two paths of current flow into the two outer rails, flow to the inner rails through the armatures of the two inner chambers respectively, and flow back to the respective power supplies through the inner rails.

Wherein the common rail type dual pipe rail transmitter further comprises an insulating material; the three rails are insulated and supported by insulating materials.

Wherein the insulating material comprises: g10, ceramic, resin.

Wherein the types of tracks include: male rail, female rail, rectangular rail, composite rail, and segmented reinforced rail.

Wherein the types of the armature include: c-shaped armatures, U-shaped armatures, H-shaped armatures and fiber armatures.

The common rail type double-pipe track emitter further comprises a shell, and the track is fixed through the shell;

the fixed mode of casing includes: carbon fiber winding and enveloping, and steel shell fixing.

(III) advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

(1) the three rails are concentrated in one emitter to form a single emitter and two tubes, so that the volume and the weight of the emitting system can be effectively reduced;

(2) the double-tube emitter shares one central track, and a magnetic field generated by current of the central track is commonly used by the two barrels, so that the emission efficiency of a system can be improved, and the power supply scale can be reduced;

(3) the structure can promote the two armatures to automatically keep the same speed to move forwards in parallel and synchronously, and simultaneously discharge the armatures out of the bore, thereby being beneficial to the consistency of the initial speed of the two-tube launching.

Drawings

Fig. 1 is a schematic diagram of a common rail type dual pipe rail launcher.

Fig. 2 is a schematic view of the electrical connection of a common rail type double tube orbital cannon.

Detailed Description

In order to make the objects, contents, and advantages of the present invention clearer, the following detailed description of the embodiments of the present invention will be made in conjunction with the accompanying drawings and examples.

In order to solve the problems in the prior art, the invention provides a common-rail type double-tube rail gun, as shown in fig. 1 and 2, the tandem connection common-rail type double-tube rail gun comprises a pulse power supply system and a common-rail type double-tube rail emitter;

the common rail type double-pipe track transmitter comprises three tracks arranged in parallel, a first armature and a second armature; the three parallel rails are divided into a first outer rail, an inner rail and a second outer rail from one side to the other side; the first outer rail, the inner rail and the first armature form a first electromagnetic orbital cannon launcher, and the second outer rail, the inner rail and the second armature form a second electromagnetic orbital cannon launcher, so that two electromagnetic orbital cannon launchers sharing a middle rail and arranged in parallel are formed; the magnetic field generated by the current of the middle track of the two electromagnetic rail gun single tube transmitters sharing the middle track is commonly utilized by the two electromagnetic rail gun single tube transmitters;

the pulse power supply system group comprises two groups of pulse power supplies with the same parameters, the anodes of the two groups of pulse power supplies are connected in parallel to the inner rail, and the cathodes of the two groups of pulse power supplies are respectively connected to the two outer rails (the diodes of the pulse power supplies are reversely connected in a circuit).

In addition, the invention also provides a common-rail type double-tube rail gun, wherein the tandem connection common-rail type double-tube rail gun comprises a pulse power supply system and a common-rail type double-tube rail emitter;

the common rail type double-pipe track transmitter comprises three tracks arranged in parallel, a first armature and a second armature; the three parallel rails are divided into a first outer rail, an inner rail and a second outer rail from one side to the other side; the first outer rail, the inner rail and the first armature form a first electromagnetic orbital cannon launcher, and the second outer rail, the inner rail and the second armature form a second electromagnetic orbital cannon launcher, so that two electromagnetic orbital cannon launchers sharing a middle rail and arranged in parallel are formed; the magnetic field generated by the current of the middle track of the two electromagnetic rail gun single tube transmitters sharing the middle track is commonly utilized by the two electromagnetic rail gun single tube transmitters;

the pulse power supply system group comprises two groups of pulse power supplies with the same parameters, the cathodes of the two groups of pulse power supplies are connected to the inner rail in parallel, and the anodes of the two groups of pulse power supplies are respectively connected to the two outer rails (the diodes of the pulse power supplies are reversely connected in a circuit).

Wherein the pulse power supply includes: a capacitor, a thyristor switch, a diode and an inductor;

the charging and discharging of the capacitor are realized through the thyristor switch, the diode is used for executing forward conduction action to avoid the reverse charging of the capacitor, and finally the current waveform is adjusted by adjusting the size of the inductor;

when in work: firstly, the thyristor switch is disconnected, and the capacitor is charged by an external power supply; secondly, after the charging is finished, the charging circuit is disconnected, and the thyristor switch is kept disconnected to prevent the capacitor from discharging; and finally, when the shot is shot, closing the thyristor switch to discharge the external circuit.

When the pulse power supply works, the two groups of pulse power supplies discharge simultaneously, two paths of current flow into the inner rail, flow to the outer rail through the respective armatures of the two inner chambers respectively, and flow back to the respective power supplies through the two outer rails.

When the pulse power supply works, the two groups of pulse power supplies discharge simultaneously, two paths of current flow into the two outer rails, flow to the inner rails through the armatures of the two inner chambers respectively, and flow back to the respective power supplies through the inner rails.

Wherein the common rail type dual pipe rail transmitter further comprises an insulating material; the three rails are insulated and supported by insulating materials.

Wherein the insulating material comprises: g10, ceramic, resin.

Wherein the types of tracks include: male rail, female rail, rectangular rail, composite rail, and segmented reinforced rail.

Wherein the types of the armature include: c-shaped armatures, U-shaped armatures, H-shaped armatures and fiber armatures.

The common rail type double-pipe track emitter further comprises a shell, and the track is fixed through the shell;

the fixed mode of casing includes: carbon fiber winding and enveloping, and steel shell fixing.

Thus, the common rail type double tube rail launcher integrates two electromagnetic rail gun launchers in a form of sharing the middle rail.

The common-rail type double-pipe rail launcher realizes synchronous launching of two projectiles by adopting a parallel launching mode.

Example 1

The embodiment provides a common rail type double-barreled rail gun. According to the distribution characteristics of the magnetic field of the electromagnetic orbit cannon, the two single-tube electromagnetic orbit cannon transmitters are integrated into a double-tube electromagnetic orbit cannon in a mode of sharing the middle orbit, and the two single-tube electromagnetic orbit cannon transmitters are respectively powered by two pulse power supplies, so that the synchronous launching of two projectiles is realized. The intensity of the fire force of the electromagnetic rail gun and the energy conversion efficiency of the emitter can be effectively improved; the size of a launching system, the scale of a power supply system and the mass of the electromagnetic rail gun are reduced.

The common rail type double-tube rail gun mainly comprises: the pulse power supply system and the common rail type double-pipe rail transmitter.

The pulse power supply system is composed of two groups of pulse power supplies with the same parameters, each pulse power supply is composed of a capacitor, a thyristor switch, a diode and an inductor, charging and discharging of the capacitors are achieved through the thyristor switches, the diodes have a forward conduction effect, reverse charging of the capacitors can be avoided, and finally current waveforms are adjusted by adjusting the size of the inductors. When in work: firstly, the thyristor switch is disconnected, and the capacitor is charged by an external power supply; secondly, after the charging is finished, the charging circuit is disconnected, and the thyristor switch is kept disconnected to prevent the capacitor from discharging; and finally, when the shot is shot, closing the thyristor switch to discharge the external circuit.

The connection mode of the two groups of pulse power supplies and the common-rail type double-pipe rail emitter is as follows: the positive poles of the two groups of pulse power supplies are connected to the inner rail in parallel, and the negative poles of the two groups of pulse power supplies are connected to the two outer rails respectively, so that the current waveform consistency of the two groups of rails is ensured. When the power supply works, the two groups of power supplies discharge simultaneously, two paths of current flow into the inner rail, flow to the outer rail through the armatures of the two inner chambers respectively, and flow back to the respective power supplies through the two outer rails.

The common rail type double-pipe rail emitter consists of three rails, an insulating layer and a shell; the three tracks are connected with a power supply system through two armatures to form two loops, so that the synchronous launching of two pills is realized. The tracks are insulated and supported by insulating layers. The track is fixed by the shell from the outside. The track comprises but is not limited to a convex track, a concave track, a rectangular track, a composite track, a segmented enhanced track and the like; the armature comprises but is not limited to a C-shaped armature, a U-shaped armature, an H-shaped armature, a fiber armature and the like; the insulating material includes, but is not limited to, G10, ceramic, resin, etc. The shell includes but is not limited to carbon fiber winding and enveloping, steel shell fixing and the like.

Example 2

The technical scheme of the embodiment comprises a pulse power supply system and a common-rail type double-pipe rail transmitter. According to the distribution characteristics of the magnetic field of the electromagnetic orbit cannon, the two single-tube electromagnetic orbit cannon transmitters are integrated into a double-tube electromagnetic orbit cannon in a mode of sharing the middle orbit, and the two single-tube electromagnetic orbit cannon transmitters are respectively powered by two pulse power supplies, so that the synchronous launching of two projectiles is realized. The intensity of the fire force of the electromagnetic rail gun and the energy conversion efficiency of the emitter can be effectively improved; the size of a launching system, the scale of a power supply system and the mass of the electromagnetic rail gun are reduced.

The common rail type double-tube rail gun mainly comprises: the pulse power supply system and the common rail type double-pipe rail transmitter.

The pulse power supply system is composed of two groups of pulse power supplies with the same parameters, each pulse power supply is composed of a capacitor, a thyristor switch, a diode and an inductor, charging and discharging of the capacitors are achieved through the thyristor switches, the diodes have a forward conduction effect, reverse charging of the capacitors can be avoided, and finally current waveforms are adjusted by adjusting the size of the inductors. When in work: firstly, the thyristor switch is disconnected, and the capacitor is charged by an external power supply; secondly, after the charging is finished, the charging circuit is disconnected, and the thyristor switch is kept disconnected to prevent the capacitor from discharging; and finally, when the shot is shot, closing the thyristor switch to discharge the external circuit.

The connection mode of the two groups of pulse power supplies and the external circuit is as follows: the positive poles of the two groups of pulse power supplies are connected to the inner rail in parallel, and the negative poles of the two groups of pulse power supplies are connected to the two outer rails respectively, so that the current waveform consistency of the two groups of rails is ensured. When the power supply works, the two groups of power supplies discharge simultaneously, two paths of current flow into the inner rail, flow to the outer rail through the armatures of the two inner chambers respectively, and flow back to the respective power supplies through the two outer rails.

The common rail type double-pipe rail emitter consists of three rails, an insulating layer and a shell; the three tracks are connected with a power supply system through two armatures to form two loops, so that the synchronous launching of two pills is realized. The tracks are insulated and supported by insulating layers. The track is fixed by the shell from the outside. The track comprises but is not limited to a convex track, a concave track, a rectangular track, a composite track, a segmented enhanced track and the like; the armature comprises but is not limited to a C-shaped armature, a U-shaped armature, an H-shaped armature, a fiber armature and the like; the insulating material includes, but is not limited to, G10, ceramic, resin, etc. The shell includes but is not limited to carbon fiber winding and enveloping, steel shell fixing and the like.

Example 3

The invention is further described below with reference to the accompanying drawings.

Referring to fig. 1, the common rail type double-pipe orbital gun launcher is composed of three rails, an insulating layer and an outer shell. The three rails are arranged in parallel, so that the magnetic field intensity of the area where the armature is located is improved, and the energy conversion rate of a power supply is improved. The three rails are fixed by adopting an insulating material, so that the vibration deformation of the rails in the launching process is reduced, and the three rails form a circuit with an external power supply system through the armature. The three rails are electrically insulated from the housing by an insulating material. The casing can adopt the steel-shelled structure, fixes and applys certain pretightning force to transmitter inner structure through the bolt, also can adopt carbon fiber winding structure to exert prestressing force to track and insulating layer, and loaded prestressing force can effectively reduce the track expansion deformation under the electromagnetic force effect.

Referring to fig. 2, the pulse power supply system comprises two sets of pulse power supplies with the same parameters. The pulse power supply comprises four parts of a capacitor, a thyristor, a diode and an inductor to form two circuit loops. One loop is formed by connecting a capacitor, a thyristor and a diode in series, and the other loop is formed by connecting a capacitor, a thyristor, an inductor and a transmitter in series. Wherein the diode and the emitter are connected in parallel. When the circuit works, the emitter is powered in parallel by the two pulse power supplies, the anodes (cathodes) of the two pulse power supplies are connected in parallel to the inner rail, and the cathodes (anodes) are respectively connected to the outer rail (the diode is reversely connected in the circuit). The tracks are connected through two armatures and form two current paths with two pulse power supplies, the electrified tracks form a strong electromagnetic field, and the two electrified armatures accelerate under the action of ampere force in the magnetic field, so that the shot is shot at high speed.

The working process of the invention is as follows:

firstly, the method comprises the following steps: assembling mode of common rail type double-tube rail gun

Firstly, reasonably topological the track of the multi-tube emitter and the emitter structure based on an electromagnetic orbital gun emission mechanism to form a common-track type double-tube track emitter scheme; the common rail is a common rail in which the upper and lower barrels share the middle rail, and the magnetic field generated by the current in the middle rail is shared by the two barrels. Secondly, the three rails are arranged in parallel, the rails and the shell are electrically insulated through insulating layers, the outermost part of the rails is fixed by the shell and certain prestress is applied to the outermost part of the rails, and the common rail type double-pipe rail transmitter is assembled. And finally, connecting the positive electrodes of two groups of pulse power supplies with the same parameters in parallel to the inner rail, and connecting the negative electrodes of the two groups of pulse power supplies to the two outer rails respectively to form an electromagnetic rail gun launching system.

Secondly, the method comprises the following steps: launching process of common-rail type double-tube rail gun

Firstly, the thyristor switch is disconnected, the capacitor is charged by an external power supply, the charging circuit is disconnected after the charging is finished, the thyristor switch is kept disconnected, and the capacitor is prevented from discharging. Next, two armatures are loaded at the same position of the pipe 1 and the pipe 2. Finally, the thyristor switch is closed and the two sets of power supplies discharge the emitter simultaneously. Two paths of current are converged into the inner rail, respectively flow to the outer rail through the respective armatures of the two inner chambers, and then flow back to respective power supplies through the two outer rails. The electrified armature can generate strong electromagnetic thrust under the action of a strong magnetic field between the rails to push the two armatures to realize synchronous high-speed emission.

Note: the first step and the second step can be carried out simultaneously or sequentially, and the two processes do not interfere with each other.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A common-rail type double-tube rail gun is characterized in that the tandem common-rail type double-tube rail gun comprises a pulse power supply system and a common-rail type double-tube rail emitter;

the common rail type double-pipe track transmitter comprises three tracks arranged in parallel, a first armature and a second armature; the three parallel rails are divided into a first outer rail, an inner rail and a second outer rail from one side to the other side; the first outer rail, the inner rail and the first armature form a first electromagnetic orbital cannon launcher, and the second outer rail, the inner rail and the second armature form a second electromagnetic orbital cannon launcher, so that two electromagnetic orbital cannon launchers sharing a middle rail and arranged in parallel are formed; the magnetic field generated by the current of the middle track of the two electromagnetic rail gun single tube transmitters sharing the middle track is commonly utilized by the two electromagnetic rail gun single tube transmitters;

the pulse power supply system group comprises two groups of pulse power supplies with the same parameters, the anodes of the two groups of pulse power supplies are connected to the inner rail in parallel, and the cathodes of the two groups of pulse power supplies are connected to the two outer rails respectively.

2. A common-rail type double-tube rail gun is characterized in that the tandem common-rail type double-tube rail gun comprises a pulse power supply system and a common-rail type double-tube rail emitter;

the common rail type double-pipe track transmitter comprises three tracks arranged in parallel, a first armature and a second armature; the three parallel rails are divided into a first outer rail, an inner rail and a second outer rail from one side to the other side; the first outer rail, the inner rail and the first armature form a first electromagnetic orbital cannon launcher, and the second outer rail, the inner rail and the second armature form a second electromagnetic orbital cannon launcher, so that two electromagnetic orbital cannon launchers sharing a middle rail and arranged in parallel are formed; the magnetic field generated by the current of the middle track of the two electromagnetic rail gun single tube transmitters sharing the middle track is commonly utilized by the two electromagnetic rail gun single tube transmitters;

the pulse power supply system group comprises two groups of pulse power supplies with the same parameters, the cathodes of the two groups of pulse power supplies are connected to the inner rail in parallel, and the anodes of the two groups of pulse power supplies are connected to the two outer rails respectively.

3. A double tube orbital cannon of the common rail type, according to claim 1 or 2, characterized in that said pulsed power supply comprises: a capacitor, a thyristor switch, a diode and an inductor;

the charging and discharging of the capacitor are realized through the thyristor switch, the diode is used for executing forward conduction action to avoid the reverse charging of the capacitor, and finally the current waveform is adjusted by adjusting the size of the inductor;

when in work: firstly, the thyristor switch is disconnected, and the capacitor is charged by an external power supply; secondly, after the charging is finished, the charging circuit is disconnected, and the thyristor switch is kept disconnected to prevent the capacitor from discharging; and finally, when the shot is shot, closing the thyristor switch to discharge the external circuit.

4. A common rail type double pipe orbital cannon according to claim 1 in which, in operation, the two sets of pulsed power supplies are discharged simultaneously, and two currents are merged into the inner rail, passed through respective armatures in the two bores respectively to the outer rail, and then returned from the two outer rails to the respective power supplies.

5. A common rail type double tube orbital cannon according to claim 2 in which, in operation, the two sets of pulsed power supplies are discharged simultaneously, and two currents are shunted to the two outer rails, respectively through the respective armatures of the two bores to the inner rail, and from the inner rail back to the respective power supplies.

6. The dual pipe orbital cannon of the common rail type according to claim 1 or 2, wherein the dual pipe orbital launcher of the common rail type further comprises an insulating material; the three rails are insulated and supported by insulating materials.

7. The dual tube orbital cannon of the common rail type, according to claim 6, characterized in that said insulating material comprises: g10, ceramic, resin.

8. Double-barrelled orbital cannon of the common-rail type, according to claim 1 or 2, characterized in that the type of orbits comprises: male rail, female rail, rectangular rail, composite rail, and segmented reinforced rail.

9. Double tube orbital cannon of the common rail type, according to claim 1 or 2, characterized in that the type of armature comprises: c-shaped armatures, U-shaped armatures, H-shaped armatures and fiber armatures.

10. The dual pipe orbital cannon of the common rail type according to claim 1 or 2, wherein the dual pipe orbital launcher of the common rail type further comprises a housing through which the rail is fixed;

the fixed mode of casing includes: carbon fiber winding and enveloping, and steel shell fixing.

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