RU2529253C2 - Rocket launcher guide retainer assembly - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to rocketry and can be used in rocket launchers. Proposed retainer assembly comprises case with elements for fastening to launcher, retainer with wedge-like ledge, handle composed by stepped bend, latch of composed by stepped bend and lock spring from flat steel. Lock spring comprises wedge-like retainer ledge, L-like bend and bracket with cut-out and vertical groove.

EFFECT: higher efficiency and reliability of retainer.

3 cl, 3 dwg

Description

The invention relates to the field of rocketry and can be used to create a new generation of anti-hail missile systems.

There are various designs of locking devices in the form of a protrusion, or recess, stopping or holding parts of the mechanism in a certain position (Polytechnical Dictionary. Ed. 3rd. Edited by A.Yu. Ishlinsky. - M .: Soviet Encyclopedia, 1989, p. 506).

The closest in technical essence to the claimed object is the locking device of the guide anti-hail rocket launcher, comprising a housing with mounting tabs, a latch with a pin, a bayonet groove and a working head, which is pressed by a compression spring resting on one side of the latch, and on the other hand - a nut that regulates the compression force of the spring (PROTOTYPE. RF Patent No. 2267914, Complex impact on the clouds. A photocopy of the design of the locking device of the prototype is attached).

To load the rocket into the guide, you must first compress the spring with the lever key until the top of the working head of the lock is flush with the upper plane of the body, insert the rocket into the guide, and then use the lever key to release the spring, while aligning the working head with an annular groove of the rocket, thus holding it in the guide in a fixed working position.

A disadvantage of the known locking device is the complexity of the design, which is due to the presence of such complex parts as a steel spring, providing a stall force of 50-70 kg, a key-lever of a complex design with an “S” throat, a bayonet groove for fixing, a hot fixer with a working head, made of special steel, device for adjusting spring force, etc.

Another disadvantage of the known device is the insufficient efficiency of rocket charging, as well as low reliability, due to the fact that when operating in the field under the influence of rain and moisture, all elements of the device undergo corrosion, including such an important element as a spring. As a result, the disruption force of the locking device changes, which distorts the flight path of the launched rocket, while reducing the effectiveness of active effects on hail clouds.

Given these shortcomings, the technical result from the use of the claimed technical solution is to simplify the design of the locking device, reduce labor costs in its manufacture and operation, as well as increase the reliability and efficiency of its operation.

The technical result is achieved by the fact that in the known locking device of the guiding rocket launcher, comprising a housing with fastening elements to the rocket launcher, a stop with a wedge-shaped protrusion, a spring, a handle and a latch, the housing is made in the form of a L-shaped bracket with a slot in its horizontal part and a vertical groove in its other - the vertical part, while a spring of steel spring is used as a spring, the free end of which has a bend in the form of a handle, and its second end is bent down At an angle of 90 °, it is enclosed in a vertical groove of the bracket and rigidly attached to its surface, while the upper horizontal part of the bend of the spring is enclosed in the slot of the L-shaped bracket with the possibility of free movement in it, while the stopper is placed on the surface of the horizontal part of the bend of the spring with a wedge-shaped protrusion up and rigidly attached to its surface, and the latch is made in the form of a stepped bend located between the handle and the wedge-shaped protrusion of the stopper.

The technical result is achieved by the fact that in the known locking device, the spring is made of tape spring steel, has a length of about 70-100 mm, a width of 20-25 mm and a thickness of 1.0-1.5 mm.

The technical result is also achieved by the fact that in the known locking device between the latch and the wedge-shaped protrusion of the stopper, a gap of 1.5-2.0 mm wide is provided.

The figure (figure 1) shows a General view of the locking device guide rocket launcher (side view); the figure (figure 2) shows the bracket locking device in two projections.

The locking device of the guiding rocket launcher (Fig. 1) and (Fig. 2) contains a housing 1, which is made in the form of an L-shaped bracket, equipped with a slot 2 in the horizontal upper part and a longitudinal groove 3 in the vertical lower part. The locking device contains a spring 4, which is used as a strip of spring steel, the free end of which has a bend in the form of a handle 5. The second end of the spring 6 is bent at an angle of about 80-100 °, enclosed in a groove 3 and rigidly attached to its surface with rivets 7. In this case, the horizontal part of the bend of the spring 8 is enclosed in the slot 2 of the bracket 1 with the possibility of free movement in it. A stopper 10, which is made in the form of a plate with a wedge-shaped protrusion 11, is rigidly attached to the horizontal part of the bend of the spring 8 with rivets 9. The locking device comprises a latch 12, which is made in the form of a stepped bend and is placed between the handle 5 and the wedge-shaped protrusion 11. In this case, between the latch 12 and the wedge-shaped protrusion 11 provides a gap 13, a width of the order of 1.5-2 mm In the figure (FIG. 1), reference numeral 14 denotes a rocket equipped with an annular stop groove 15. Reference numeral 16 and reference numeral 17 indicate the upper runner and the lower runner of the guiding missile launcher, respectively. The vertical branch 2 of the bracket of the locking device 1 (figure 2) contains two oval holes 18 for attaching the bracket 1 of the locking device to the launcher housing using mounting bolts (bolts are not shown in the figures). The ovality of the holes 18 allows you to move the bracket 1 up and down and thereby regulate the stall force. The vertical branch 2 of the bracket 1 also contains four holes 19 for attaching the spring 4 to the bracket using rivets 7 (figure 1). The horizontal upper part of the bracket 1 contains at the end two protrusions 20, fixing the position of the spring 4 in the channel of the slot 2.

The locking device guide missile launcher works as follows.

When loading a missile launcher, rocket 14 is installed in the channel guide and moves forward. When combining the annular locking groove 15 with the wedge-shaped protrusion 11, the latter enters this groove 15 and thereby fixes the position of the rocket 14 in the guide channel. When the rocket 14 is launched, a thrust is formed, upon reaching which a predetermined threshold level (50-70 kg), the wedge-shaped protrusion 11 disengages from the annular stop groove 15, and the rocket 14, gaining speed, comes off the guide.

The proposed technical solution allows to significantly simplify the design of the locking device, reduces labor costs during its operation, and also increases the reliability and efficiency of its work.

Claims (3)

1. The locking device of the guiding rocket launcher, comprising a housing with fastening elements to the rocket launcher, a stopper with a wedge-shaped protrusion, a spring, a handle and a latch, characterized in that it consists of a locking spring made of steel tape containing a wedge-shaped locking protrusion, a latch, a handle and the L-shaped bend at an angle of 60-70 degrees, as well as the bracket with a slot in the horizontal upper part and a vertical groove in its other, lower vertical part, used to fasten the tape spring to the body the guide, the free end of the spring has a bend in the form of a handle that is pulled by the muzzle of the rocket when it is loaded into the guide, and when the rocket is further pushed along the guide, the wedge-shaped protrusion of the spring automatically engages in the ring groove of the rocket, and locks it, while the latch eliminating the slip of the annular groove of the rocket of the locking wedge-shaped protrusion of the spring, made in the form of a stepped bend located between the handle and the wedge-shaped protrusion of the spring. 2. The locking device of the guiding rocket launcher according to claim 1, characterized in that the spring is made of tape spring steel, has a length of about 70-100 mm, a width of 20-25 mm and a thickness of 0.8-1.0 mm. 3. The locking device of the guiding rocket launcher according to claim 1, characterized in that between the lock and the wedge-shaped protrusion of the stopper, a gap of 1.5-2.0 mm wide is provided.

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