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US3561705A - Self-inflating target deployment container - Google Patents

️Tue Feb 09 1971

D United States Patent 1 1 3,561,705

[72] inventor Raymond S. Daughenbaugh 2,382,442 8/1945 Rich et al.. 244/138 860 S. LaLuna. Ojai, Calif. 93023 3221656 12/1965 Sutten 1 244/138 [21 Appl. No. 801,594 3234503 2/1966 Wojcieehowski 244/142 [22] Filed Feb. 24. 1969 3,328,750 6/1967 Gimber et al. 244/142 [45] Patented Feb. 9. 1971 3.508.724 4/1970 Scher et a1. 244/138(X) Primary Examiner-Ge0rge E. A. Halvosa s4 SELF-INFLATING TARGET DEPLOYMENT Examiwqames Pmenger CONTAINER Att0rneysEdgar .l Brower, Q. Baxter Warner and Gayward 6 Claims, 4 Drawing Figs.

[52] US. Cl 244/138,

ABSTRACT: A container for deploying a self-inflating target [51] Int. Cl 364d 1/02 from an aircraft comprising an elongate tubular casing for the [50] Field of Search 244/138, t, a nose cap and a weighted tail portion which also serves as an airscoop. Upon release from the aircraft the weighted tail portion orients the container vertically. A valve positioned [56] References c'ted in the airscoop controls the amount of air entering the target UNITED STATES PATENT to prevent target ejection and inflation until the falling con- 1,777,188 9/ 1930 Wiley 244/1 38 tainer and target have decelerated to a safe opening speed.

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SHEEI 2 OF INVENTOR. RAYMOND s. DAUGHENBAUGH SELF-INFLATING TARGET DEPLOYMENT CONTAINER STATEM ENT OF GOVERNMENT INTEREST The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without the payment of any royalties thereon or therefor.

CROSS REFERENCE TO RELATED APPLICATIONS In a copending application, Ser. No. 801 ,524 filed Feb. 24, 1969, applicant discloses a self-inflating target of the type which may be housed within and deployed from the container of the present invention. While the target of the copending application is not part of the present invention, it has been illus trated in the drawings and mentioned in the description of the preferred embodiment primarily to add clarity and to assure full understanding of this invention.

BACKGROUND OF THE INVENTION The present invention relates generally to containers and more particularly to containers for housing inflatable targets which are to be transported by and dropped from aircraft.

Prior art sea targets are usually heavy wood or steel barges which must be towed to the selected target areas by ship. Such methods of target delivery are slow and impose expensive personnel and equipment requirements. These requirements are obviated by the container of the present invention when used with a self-inflating sea target.

SUMMARY OF THE INVENTION Briefly the present invention is directed to a device which renders a self-inflating target droppable from an aircraft traveling at a relatively high speed. It is a compact storage and launching container part of which may be an integral part of the deployed target. It comprises a tubular casing for storing the deflated target, a removable nose cap mounted on the front of the casing and a weighted airscoop positioned on the rear of the casing. The weight of the airscoop properly orients the container upon its release from the aircraft. An airflow control valve is mounted in the airscoop for limiting the amount of air entering the scoop until the device decelerates sufficiently to permit ejection and opening of the target without damage.

STATEMENT OF THE OBJECTS OF INVENTION BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side elevational view of the container with portions broken away.

FIG. 2 is a slightly enlarged view of the weighted airscoop shown in FIG. 1 but rotated on its longitudinal axis 90.

FIG. 3 is a rear end view of the container taken along line 3-3 of FIG. 2.

FIG. 4 (a-f) is a diagrammatic step-by-step illustration of the action of the container upon airdrop showing how the enclosed target is deployed.

DESCRIPTION OF THE PREFERRED EMBODIMENT FIG. I of the drawings illustrates the circular target container I0 of the present invcntionwhich has a central elongate

tubular packing barrel

12 with a detachable nose cap I4 mounted on the forward end and a

weighted airscoop

16 located at its rear end. Reference is made to the aforementioned copending application for details of the target housed within the container.

The packing barrel I2 is the largest single section of the container I0 and provides the main storage area for the enclosed target. It is formed of two identical separable halves I8 and 20 the edges of which abut at 22 to form

tubular packing barrelv

12. The packing barrel is mated at the rear through

lap joint

24 with the airscoop I6 and at the front through

lap joint

26 with the

nose cap

14. The latter is detachably located at the forward end of the packing barrel so that it can be pushed off by the emerging target and allow the barrel halves to separate after release of the container 10 from the aircraft.

The

hollow airscoop

16 may be in the form of an annulus and is provided with a

central aperture

27 through which air can pass into a

target inflation sleeve

29 when the container is released from an aircraft. The airscoop may be formed of any suitable material such as sheet metal or plastic and has an

outer surface

30 which is turned back upon itself in reentrant fashion to form an inner

tubular sleeve

28 to which the

target inflation sleeve

29 may be secured. An

annular pocket

25 is formed at the juncture' of

sleeve

28 and ledge 30 and may accommodate a body of weighted material which may be lead and may be mounted in a plastic cement if desired. Such weight helps to vertically orient the container with the

airscoop

16 in a forwardly or down position substantially coinciding with the trajectory path of its fall after release from an aircraft.

Outer surface

30 may be mated to the end of packing

barrel

12 through a

suitable lap joint

24 as shown in FIG. I.

An airflow control valve arrangement may be positioned in

sleeve

28 and is adapted to limit the amount of air passing into the target so as to prevent premature target ejection. The valve arrangement comprises a pair of

flexible valve plates

34 hingedly mounted on a

shaft

36 which is centrally and transversely mounted within the

sleeve

28. Both

valve plates

34 are normally held in an open position by

springs

38 which connect each

valve plate

34 to an

opposed airscoop wall

40 substantially as shown in the drawings. An

adjustable turnbuckle

39 may be interposed between

wall

40 and each

spring

38 for controlling the tension exerted on valve plate by such spring. Control of such tension permits varying the point at which the target is ejected and the container breaks up. A

valve stop rod

42 extends transversely across

sleeve

28 at a angle to

shaft

36 and is positioned behind the

valve plates

34 in order to suitably position the plates in their closed position. Each valve plate is loosely fitted within the inner wall of

sleeve

28 so as to effectively limit the amount of air flowing into the container when the valve plates are in the closed position. It will be apparent that if desired a suitable spring hinge may also be used to apply opening tension to the valve plates.

A pair of

separable holding clamps

44 are positioned around the container 10 at the junctures of the

packing barrel

12 with the

nose cap

14 and the airscoop I6. The clamps function to hold the three parts of the container 10, i.e.,

nose cap

14, packing barrel l2 and

airscoop

16 in their mated position and also serve as mounts for attachment of the container to a conventional bomb rack. When the container 10 is released in the target area, the

rings

44 come apart and the container will orient itself with the airscoop l6 directed forwardly along the path of trajectory due to its greater weight.

While in place on a bomb rack, the

valve plates

34 are normally in the open position. Upon release the heavier rear end of the container causes it to swing around so that the airscoop faces forwardly along the trajectory path and the ram air pressure then acts upon the

plates

34 to close them and prevent any air ingress into the scoop. However, as the container decelerates to its terminal velocity the ram air pressure against the valve plates is reduced and

springs

38 can gradually force the plates open to allow ram air to enter the

airscoop

16 This inflates the target which latter then forces off

nose cap

14. Thereupon the

packing barrel

12 splits into two

halves

18 and 20. The inflatable target is now free from containment and the air entering the permanently attached

airscoop

16 eventually completely fills out the descending target. Upon striking the ocean surface, the

weighted airscoop

16 will sink thereby anchoring the target on the ocean surface.

l claim:

1. An air-droppable device for housing a target made of thin flexible material which target is adapted to be inflated by ram air forced thereinto when dropped through the earths atmosphere comprising:

a container of elongate overall shape formed of a plurality of breakaway parts having interfltting edges;

a weighted airscoop positioned at the aft end of said container with an opening leading into the interior of said target; and

means for orienting the major axis of the container along the path of the container trajectory with the weighted airscoop directed forwardly when the container is dropped from a moving body; so that said container breaks up during its fall to free said target in order that it may become fully inflated before impact.

2. The device of claim 1 wherein the container comprises a nose section, a central body section and a tail section, said sections being interfitted together and forced off during the disassembly.

3. The device of claim l wherein the airscoop is provided with airflow control means.

4. The device of

claim

3 wherein the airflow control means automatically responds to ram air pressure so as to prevent air ingress during periods of high ram air pressure and to permit air ingress during periods of low ram air pressure.

5. The device of

claim

4 wherein the airflow control means if adjustable to vary the point at-which air ingress is permitted.

6. The method of erecting a collapsible target at a remote site comprising the steps of:

collapsing said target into a small bundle;

encapsulating said bundle within a breakaway container.

said container having a weighted airscoop positioned at the aft end thereof with an opening leading into the interi or of said target; transporting said container to a position above said site; releasing said container on a trajectory path directed toward said site, whereupon the container will become oriented with the airscoop directed forwardly;

decelerating said container to its normal terminal-velocity at free fall; and

decapsulated said collapsed target when such normal ter' minal velocity is reached, so that the collapsed target may fully expand to its normal shape before impact at the tar get site.

Patent NO- 3 a Dated February 9 Inventor(s) Raymond s ugh it is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

Column

4 line 9 "if" should read is Signed and sealed his 7th day of March 1972 (SEAL) Attest:

EDWARD M.FLETCHER,JR. ROBERT GOTTSCHALK Attesting Officer Commissioner of Pa FORM PO-10 (10-69) useomm-oc cos.