Anti-tank rocket launcher telescoping tube locking device

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BACKGROUND OF THE INVENTION

This invention relates to the field of rocket launchers. Recent rocketry development has produced several smaller caliber rockets that are extremely useful against tanks and other vehicles. Since the launcher must be man-transportable, weight is a prime consideration in such launcher design.

The problems of retaining telescoping tubes in the extended condition has a multitude of approaches but only a few result in a design of simplicity, ease of operation and a very minimum of weight. The locking device must hold the tubes in the extended position, but more importantly the tube must be prevented from rotating along the center line. This rotation would cause the launcher with a front sight on one tube and a rear sight on the other tube to be very inaccurate.

SUMMARY OF THE INVENTION

The launcher of the present invention includes a pair of telescoping sections having a spline lock means for maintaining the tubes in extended position for rocket launching. The aft, or outer tube, is provided with a reinforcing ring at the aft end and a retainer ring at the forward end. The inner tube is provided with a filler ring at the aft end thereof, a reinforcing ring at the forward end thereof and a second filler ring intermediate the forward and aft rings. The filler rings are slidable in the outer tube and serve as spacers so that close tolerances can be maintained between the inner and outer tubes. A locking member is secured to the inner tube and is carried inside the outer tube when the tubes are in the non-extended position. The locking member slides in a slot in the retainer ring on the outer tube. The locking member is provided with dove-tail that mates with a dove-tail of the retainer ring to assure that the tubes remain aligned with each other. The locking member includes a spring portion that raises for engagement with the outer surface of the retainer ring to maintain the launcher in extended position. A release member secured to the retainer ring is disposed for engagement with the raised portion of the locking member for depressing the locking member for release of the sections from locked engagement.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an elevation view of the launcher assembly including the spline lock for holding the tubes in extended position.

FIG. 2 is a plan view, partially in section, along line 2--2 of FIG. 1 showing the spline lock in engagement with the retainer ring on the outer tube to maintain the tubes in extended position.

FIG. 3 is an enlarged partial view along line 3--3 of FIG. 1 showing the engagement of the locking member with the retainer ring.

DESCRIPTION OF THE PREFERRED EMBODIMENT

As seen in FIG. 1, a rocket launcher 10 includes a forward tube section 12 and an aft tube section 14. A spline lock assembly 16 is carried by the tube sections for cooperation therebetween to maintain the tubes in extended position as shown.

As shown in FIG. 1, the aft tube section 14 includes a retainer ring 18 secured to the forward end 20 of aft tube section 14. The retainer ring 18 is bonded by an epoxy adhesive to the tube. The retainer ring 18 is provided with an inwardly extending annular flange 22 and a cylindrical portion 24. As seen in FIG. 3, a groove 26 is provided in the annular flange and includes dove-tailed surfaces 28.

Inner tube section 12 includes a first filler ring 30 secured to the aft end 32 thereof, a second filler ring 34 secured intermediate the ends of the tube section, and a reinforcing ring 36 secured to the forward end 38 of inner tube section 12. The rings are secured to the tube section by an epoxy adhesive. Ring sections 30 and 34 are affixed to the inner telescoping tube and are provided with an outside diameter to permit required sliding tolerances between the inner and outer tubes while also maintaining concentricity limits between the telescoping tubes.

Spline lock assembly 16 includes a locking member 40 which is secured to the inner tube section by an epoxy adhesive (FIGS. 1 and 2) having a forward end 42 (FIG. 3) which abuts against forward reinforcing ring 36 and an aft dove-tailed portion 44 (FIGS. 1 and 3) which abuts against filler ring 34. The upper surface 46 of member 40 is flush with the outer annular surfaces of filler rings 34 and 30. Member 40 includes a cut-out, raised spring portion 48 adjacent dove-tailed portion 44. A spring member 50 is secured to retainer ring 18 and is provided with a downwardly extending tip 52 for engagement with spring portion 48 of the locking member.

To assemble the tubes, the smaller diameter tube 12 is inserted into tube 14 from the rear thereof. The forward reinforcing ring 36 is installed after the final assembly of the two tubular sections.

In operation, the tubes are extended to the position shown in FIG. 1 so that the spring portion of the locking member is in engagement with the outer surface of the retaining ring 18 and the dove-tail portion 44 of the locking member is confined in dove-tail surfaces 28 of the retaining ring to prevent. In this position the tubes are retained in their extended position and are locked against rotational movement misalignment of forward sight 54 and rear sight 56. Filler ring 34 is disposed for abutting relation with flange 22 of the retaining ring to prevent separation of the tubes.

To release the tubes from the locked engagement, spring 50 is depressed so that tip 52 thereof engages spring portion 48 of the locking member for downward movement thereof for the disengagement.

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