US3121292A - Rocket toys - Google Patents

Description

1964 s. c. BUTLER ETAL 3,

United States Patent 3,121,292. ROCKET TGYS Stanley C. Butler, 15272 Penn Ave., San Lorenzo, Calif., ancll fDe Loss L. Marsh, 212 Revere Ava, Hayward, Cai

Filed June 1, 1959, Ser. No. 817,149 7 3 Claims. (CI. 4674) This invention pertains to new and improved rocket toys.

It is well established that children enjoy playing with toys which simulate various modern developments in the rocket and missile field. In the past a number of such toys have been designed and used. These prior toys, however, tend to suffer from inherent limitations and dis advantages. Many of these prior toys are of such a nature that they cannot be operated solely by air pressure. The use of air pressure to actuate rocket toys is desirable for several reasons. Probably the primary one of these reasons is the fact that air as a source of motive power is conveniently available everywhere and costs nothing.

The prior air actuated toy rockets have tended to be comparatively complex; frequently they have been relatively expensive because they have employed completely separate air compressors, separate air chambers and the like. Also the prior air operated toy rockets have suffered from a serious commercial disadvantage inasmuch as they have not been capable of being used with a secondary rocket stage.

An object of the present invention is to provide new and improved toy rockets. Another general object of this invention is to provide toy rockets which may be easily and conveniently constructed at a nominal cost and which are very efficient in their simulating operation of actual rockets. A still further general object of this invention is to provide toy rockets which are capable of being used by virtually any child without danger and which are capable of withstanding the usual physical treatment accorded toys by children.

A more specific object of this invention is to provide air actuated toy rockets which include as an integral part of such toys an air chamber which, in effect, forms a part of the compressor used to compress air so as to operate such toys. A still further object of this invention is to provide air actuated toy rockets having first and second rocket stages which are designed so as to be initially propelled together and which are further designed so that the second stage is propelled from the first stage after both stages have travelled a substantial distance from the point where these stages were launched. A still more specific object of this invention is to provide two stage rocket structures in which the first stage includes an air chamber which holds air under pressure in such a manner that after it is propelled a given distance air from this air chamber serves to propel another secondary stage.

Because of the nature of this invention it is not considered necessary to set forth in this description further objects and advantages of it. Such other objects and advantages of the invention will be fully apparent to those skilled in the art to which this invention pertains from a detailed consideration of the remainder of this descriptions including the appended claims and the accompanying drawings in which:

FIG. 1 is a cross-sectional view of a complete rocket toy of this invention including a launching platform and first and second rocket stages;

FIG. 2 is a cross-sectional view similar to FIG. 1 showing these rocket stages as a toy rocket of this invention is propelled through the air;

FIG. 3 is a cross-sectional view similar to FIG. 2 of a modified toy rocket of this invention;

FIG. 4 is a partial cross-sectional view similar to FIG. 3 showing the position of parts of this modified toy rocket after a second rocket stage has been propelled through the air;

FIG. 5 is a cross-sectional view similar to FIG. 4 of a still further modified two-stage toy rocket of this invention;

FIG. 6 is a cross-sectional view of a hand launching platform of this invention in use with a toy rocket;

FIG. 7 is a partial elevational view taken at line 7-7 of FIG. 6.

The accompanying drawings are primarily intended so as to illustrate several presently preferred embodiments or forms of this invention. Those skilled in the art to which this invention pertains will realize that the features of this invention as herein explained can be embodied in differently appearing structures through the exercise of routine engineering skill.

As an aid to understanding this invention it can be stated in essentially summary form that it includes two stage toy rockets in which the second stage is mounted upon the first and in which the first stage includes an air chamber which is adapted to hold a quantity of air under pressure used to propel the second rocket stage from the first after both rocket stages have been propelled a substantial distance. With this invention either one or both of these rocket stages can be launched from a simple platform serving as an air compressor.

The actual nature of this invention is best: more fully described by referring directly to the accompanying drawing. In FIG. 1 there is a complete rocket toy of this in vention which includes alaunching platform 10* and a rocket toy consisting of afirst rocket stage 12 and asecond rocket stage 14. Theplatform 10 is built so as to include abase 16 upon which is mounted acylinder 18, the top of which is closed by aplate 20 having a centrally located opening 22 formed thereon. From an examination of FIG. 1 of the drawings it will be seen that .a part 24 of this opening '22 is adapted to serve as a valve seat which forms a seal with avalve body 26. Thevalve body 26 is attached by means of arod 28 to a weight 30 adapted to bring thevalve body 26 against the seat 24 after the valve body has been lifted during the use of theplatform 10. This construction constitutes a check valve leading from the interior of thecylinder 18.

Thevalve body 26 is. adapted to be moved by means of apiston 32 which fits loosely within thecylinder 18. Thepiston 32 includes an externalannular groove 34 of greater length than depth. A common elastomeric 0ring 36 positioned within this groove is of such dimension that it extends from thegroove 34 so as to hit against the interior of thecylinder 18 so as to form a seal therewith at all times. The dimensions of thegroove 34 are such that the O-ring 36 rolls along the length of the groove 34- ifIOIIl one end of thegroove 34 to the other end of the groove as thepiston 32 is reciprocated.

As the piston is being moved away from the plate 29, the G-ring 36 is in such a position thatslots 38 in the side of the piston adjacent to the plate 20' are uncovered, permitting air to be pulled into thecylinder 18 between thepiston 32 and theplate 20 from around the sides of the piston. As thepiston 32 is moved toward theplate 20 the O-ring 36 moves so as to close off these slots, enabling air to be compressed in this area. Such movement of thepiston 32 is obtained through the use of aconventional handle 40 which is pivotally mounted upon anextension 42 of thebase 16, and which is pivotally connected to thepiston 32. As shown in FIG. 1 this handle extends through aslot 44 in thecylinder 18.

The exterior of thecylinder 18 includes an outerannular groove 46 which holds a conventional elastomeric O-ring 48 in such a manner that this O-ring forms a seal against thecylindrical interior 50 of an openfirst end 52 of therocket stage 12. Thisfirst rocket stage 12 is adapted to be held inthis position by means of aspring loadedlatch 54 mounted on the exterior of the cylinder so as to engage anannular flange 56 extending completely around the exterior of thefirst end 52 of thisfirst stage 12.

When thefirst stage 12 is secured upon theplatform 10 as indicated in the preceding discussion asmall bracket 58 extending from thecylinder 18 hits against anend 60 of arod 62, moving this rod away from theplatform 10. As this is accomplished acheck valve body 64 is moved away from acheck valve seat 66 in awall 68 defining within the first rocket stage 12 a first end of anair chamber 70. A second end of this air chamber 70' remote (from thewall 68 is defined by acylindrical end 72 of thefirst rocket stage 12. At least one opening 74 is formed in anend wall 75 of thissecond end 72.

Thecheck valve body 64 is normally held against thecorresponding valve seat 66 by means of asmall coil spring 76 located around therod 62 between thewall 68 and theend 60. Further, the check valve body and thecheck valve seat 64 and 66, respectively, are preferably formed so as to include means, such assmall ribs 78, preventing a complete seal from being formed between these two parts. Thus, when closed the complete check valve, including thevalve body 64 and thevalve seat 66, define a restricted orifice leading from the interior of theair chamber 70 which permits air under pressure'to bleed out of this air chamber slowly at a controlled rate. If desired, such orifice means may consist solely of a sloppy fit between thevalve body 64 and thevalve seat 66 or other equivalent structures.

Within thesecond end 72 of thefirst rocket stage 12 there is slidably mounted arod 80 which has secured to its end adjacent to the air chamber 70 a valve body '82. Movement of therod 80 to within theair chamber 70 is prevented by means of ahead 84 located on thisrod 80 remote from this air chamber. Around the exterior of thevalve body 82 there is located a groove (not separately numbered) holding a conventional elastomeric O-ring 86 which is adapted to form a seal with the interior of thesecond end 72. When thisvalve body 82 is held within this second end, the interior of thesecond end 72 serves as a valve seat for thevalve body 82. Normally thisvalve body 82 is biased in an open position by means of asmall coil spring 88 located around therod 62. When, however, the first rocket stage '12 is positioned upon theplatform 10 as indicated in FIG. 1 of the drawing therod 62 is held as shown so as to hold the valve body '82 against the pressure of thespring 88 so as to form a seal at thissecond end 72.

When. therocket stage 12 is in the position shown on theplatform 10 and thehandle 40 is reciprocated, air under pressure flows past the valve body .26 into the sealed portion of thefirst rocket stage 12 beneath thewall 68 and into theair chamber 70. The amount of such air pressure which may be built up Within these spaces will depend upon the preference of an individual. After such air pressure has been built up the first and second rocket stages 12 and 14 may be propelled through the air by the simple expedient of releasing thelatch 54.

The moment thelatch 54 is released, the air pressure beneath thewall 68 will react against theplate 20 propelling both the rocket stages 12 and 14 into the air. Substantially simultaneously thecheck valve body 64 will move against thecheck valve seat 66, entrapping within theair chamber 70 air under pressure. This pressure will gradually decrease as the rocket stages 12 and 14 travel because of the fact that this check valve is formed so as to act as a restricted orifice.

When the air pressure within thechamber 70 drops to a material extent this air pressure will be no longer suificient to hold the valve body '82 against the pressure of thespring 88, and thisspring 88 will cause thevalve body 82 to move into theair chamber 70. As this occurs a substantial quantity of air under pressure will rush through thesecond end 72 into thesecond rocket stage 14. As is seen in FIGS. 1 and 2 of the drawing, thissecond rocket stage 14 is of essentially a bullet-like shape and includes acylindrical wall 90 fitting against the exterior of thesecond end 72 and adomed head 92. The rush of air from within theair chamber 70 will hit against thishead 92 causing thesecond rocket stage 14 to fly a substantial distance ahead of and away from thefirst rocket stage 12.

In FIGS. 3 and 4 of the drawing there is shown a modified rocket toy of this invention consisting of first and second rocket stages, and 102 respectively. Thissecond rocket stage 102 is built substantially in the same manner as thesecond rocket stage 14 in the preceding embodiment of the invention so as to include a domed top 104 and acylindrical Wall 106. ThisWall 106 fits closely against a correspondingcylindrical wall 108 forming a second end of the first rocket stage 100.

The first rocket stage 100 is built so as to include a centrally located, generallycylindrical air chamber 110 having awall 112 separating the interior of it from the interior of thecylindrical wall 108. At least oneopening 114 is provided within thewall 112 so as to connect theair chamber 110 with the end of this first rocket stage 100 constituted by thewall 108. Preferably acylindrical recess 116 is provided within theair chamber 110 adjacent to theWall 112. Further, aguide rod 118 is secured to the center of thewall 112 so as to extend therefrom along the length of theair chamber 110. Thisguide rod 118 includes a shoulder 120 leading to apointed end 122 of less diameter than the remainder of therod 118. Thepointed end 122 fits loosely within a correspondingly shapedopening 124 in awall 126 closing an end of acylinder 128 having an openfirst end 130. Aflange 132 similar to the flange 56- is located around thecylinder 128 substantially as indicated in FIG. 3 of the drawing for use in attaching this structure to a launching platform substantially as indicated in the discussion of the preceding embodiment of this invention.

When the first and second rocket stages 100 and 102 respectively are mounted upon a launching platform in this manner the interior of thecylinder 128 is, of course, sealed. As such a launching platform is operated so as to build up air pressure within the interior of the cylinder 128 a comparatively small amount of air under pressure will travel through theopening 124 around thepointed end 122. However, a comparatively large amount of air will travel through anotheropening 134 in thewall 126 into the interior of theair chamber 110 past awasher 136 serving as a check valve body. This washer 136 I normally fits against a correspondingly shaped portion of theWall 126 serving as a check valve seat. Thewasher 136 is biased against thewall 126 by acoil spring 137 pushing against it and apiston 138.

Thepiston 138 is formed in a similar manner to thepiston 32 so as to have anannular groove 140 corresponding to the groove34 extending around the interior of it. Thepiston 138 fits loosely within theair chamber 110 and includesslots 142 similar to theslots 38 previously described. Air hitting against the end of thepiston 138 adjacent to thewall 126 will tend to move an O-ring 144 similar to the O-ring 36 in thegroove 140 so as to open theslots 142. As a result of this air under pressure moving into theair chamber 110 the pressure on both sides of the piston 138- will become equalized.

Thespring 137 holds this piston so that acylindrical valve body 146 attached to it by means of atube 148 is normally located in therecess 116. An O-ring 150 carried within thegroove 152 in the exterior of thisvalve body 146 forms a seal with the interior of therecess 116.

preventing escape of air under pressure through theopenings 114 and thewall 112. The escape of air through theseopenings 114 will also be prevented by means of a small O-ring 154 located within agroove 156 in thepiston 138 around theguide rod 118. Asmall washer 158 is preferably located between thespring 137 and thepiston 138 in order to hold the O-rin-g 154 in thegroove 156.

When thefirst rocket stage 190 is ready for firing air under pressure will be found within. thecylinder 128 and within theair chamber 110 On both sides of thepiston 138. When this first rocket stage is fired or released the air pressure within thecylinder 128 will of course be released. Simultaneously some air under pressure will start bleeding out around thepointed end 122 from within theair chamber 110. This is because thepointed end 122 fits Within theopening 124 so as to constitute a restricted orifice means, allowing the fiow of only a small quantity of air. Simultaneously the O-ring 144 around the exterior of the piston 133 will move because of the differential of air pressure so as to seal the interior of theair chamber 116 from the portion of this air chamber adjacent to thewall 126.

As the pressure drops within the portion of theair chamber 110 adjacent to the wall 126 a point will be reached at which a differential in pressure is achieved which is sufficient to move the piston 133 and the attachedvalve body 146 and thetube 148 toward thewall 126. This movement of thepiston 138, thevalve body 146 and thetube 148 is related to the pressures on thepiston 138 and thevalve body 146 and the fact that the area of thepiston 138 is greater than the area of thevalve body 146 to a sufficient extent so as to move these connected members toward theWall 126 against the pressure of thespring 137. When the pressure within theair chamber 110 between thewall 126 and thepiston 138 is reduced to a sutficient extent so that some movement of thepiston 138 and thevalve body 146 transpires, the O-ring 154 moves off of the principal portion of theguide rod 118, causing the air pressure within the portions. of theair chamber 11%) adjacent to the wall 127 to substantially simultaneously drop to atmospheric pressure. This sudden change in air pressure within this portion of theair chamber 110 serves to allow the combinedpiston 138,valve body 146 andtube 148 to move to the position indicated in FIG. 4 of the drawing quite rapidly so that a blast of air held under pressure Within the air chamber 110' is rapidly released out through theopenings 114, causing thesecond rocket stage 102 to be blasted ofi of the first rocket stage 100.

When it is desired to re-use the first and second rocket stages 108 and 102 these stages may be placed together as indicated in FIG. 3 of the drawing on a launching platform in the same manner as indicated in FIG. 1 of the drawing and air pressure can again be built up by the operation of such a launcher.

In FIG. 5 of the drawing there is shown a further modified toy rocket consisting of first and second rocket stages i169 and 162 which are exceedingly similar to the first and second rocket stages 100' and 2 previously described. Because of the similarity those parts of the first and second rocket stages 1-601 and 162 which are identical to or substantially identical to the cor-responding parts of thestages 100 and 102, respectively, are not separately described in this specification and are designated by the primes of the numerals previously used.

The first rocket stage 160' differs from the first rocket stage 100 primarily in that thetube 148 slides upon theguide rod 118 and is formed so that the principal portions of this tube 148' and the attached valve body 146' are spaced from theguide rod 118" in such a manner that an O-ring 164 replacing the O-ring 154 previously described can slide within the tube 148' so as to form a seal directly against thepiston 138 when this piston. is moved toward therecess 116 by thespring 137 so as to seal the interior of the air chamber 1'10.

In FIGS. 6 and 7 of the drawing there is shown a modified hand launching platform of the present invention which consists of a handle 172 carrying anelongated cylinder 174 having anopen end 176 and aclosed end 1 78, these ends being separated by aninner wall 180 carrying aconventional check valve 182 formed so as to permit air flow from within the space between theend 178 and thewall 180 toward theopen end 176.

Thisplatform 170 is made so that acylindrical end 184 of a toy rocket may be held around theopen end 176 of thecylinder 174 with an 0-ring 18 45 mounted in agroove 18 8 adjacent to theopen end 176 forming a :seal with theend 184, and so that thisend 184 may be held in place by means of a small latch type trigger engaging aflange 192 on theend 184. Preferably thetrigger 190 is biased away from the handle 172 by means of asmall coil spring 194 as indicated in FIG. 6 of the drawing.

During the use of theplatform 170 it may be held by means of auxiliary handles 196- attached to thecylinder 174 or in other equivalent manners. As it is so held aknob 198 on apiston rod 200 may be pulled. and pushed back and forth so as to move apiston 202 within the cylinder 174' so as to alternatively draw air into the cylinder and then compress this air out past thecheck valve 182. Since thepiston 202 is substantially identical with thepiston 32 previously described various individual parts of it are designated by the primes of the numerals used in describing thepiston 32.

Those skilled in the art to which this invention pertains will recognize that a complete rocket toy of this invention can be readily used by virtually any child, and that these toys are fairly inexpensive to build and are yet capable of withstanding the abuse normally accorded toys of this type. They will also realize that a complete rocket toy as herein described may be used with a nominal amount of difiiculty so as to achieve results not normally considered possible. They will also realize that a complete toy rocket as shown and described consisting of two rocket stages can be employed with other launching plat forms than the specific launching platforms described in this specification, and that a first rocket stage as herein described can be used alone without being employed with another or secondary rocket stage. Because of the nature of this invention it is to be considered as being limited only by the appended claims forming a part of this disclosure.

We claim:

1. A rocket stage for a two-stage air operated toy rocket which includes: a member having first and second ends; wall means located within said member so as to define within said member an air chamber; pressure responsive valve means capable of being held closed by air pres sure within said air chamber leading from said air chamher to said second end of said member; orifice means leading from said air chamber to the said first end of said member; and check valve means mounted on said member for introducing air under pressure into said air chamber and holding air under pressure within said chamber, second stage rocket means capable of being propelled by air pressure away from said member positioned upon said second end of said member for receiving air passing said pressure responsive valve means so as to be propelled away from said member.

2. A rocket stage for a two-stage air operated rocket toy as defined inclaim 1 wherein said check valve means includes a valve seat and a valve body which is movable with respect to said valve seat, and wherein said orifice means comprises means preventing said valve body from forming a seal against said valve seat.

3. A rocket stage for a two-stage air operated toy rocket as defined inclaim 1 wherein said air chamber is cylindrical and including a piston movably mounted Within said chamber, and wherein said piston abuts part of said pressure responsive valve means so as to actuate said pressure responsive valve means, said piston dividing said 7 8 air chamber into a part adjacent said orifice means and 559,957 Stoddard May 12, 1896 into another part adapted to hold air under pressure for 2,588,184 Walsh Mar. 4, 1952, release through said pressure responsive valve means. 2,594,627 Endicott Apr. 29, 1952 2,733,699 Krinsky Feb. 7, 1956 References Cited in the file of this patent 5 3,003,490 Deterding et a1 Oct. 10, 1961 UNITED STATES PATENTS FOREIGN PATENTS 409,163 Boekel Aug. 20, 1889 161,579 Australia Mar. 1, 1955

Claims (1)

1. A ROCKET STAGE FOR A TWO-STAGE AIR OPERATED TOY ROCKET WHICH INCLUDES: A MEMBER HAVING FIRST AND SECOND ENDS; WALL MEANS LOCATED WITHIN SAID MEMBER SO AS TO DEFINE WITHIN SAID MEMBER AN AIR CHAMBER; PRESSURE RESPONSIVE VALVE MEANS CAPABLE OF BEING HELD CLOSED BY AIR PRESSURE WITHIN SAID AIR CHAMBER LEADING FROM SAID AIR CHAMBER TO SAID SECOND END OF SAID MEMBER; ORIFICE MEANS LEADING FROM SAID AIR CHAMBER TO THE SAID FIRST END OF SAID MEMBER; AND CHECK VALVE MEANS MOUNTED ON SAID MEMBER FOR INTRODUCING AIR UNDER PRESSURE INTO SAID AIR CHAMBER AND HOLDING AIR UNDER PRESSURE WITHIN SAID CHAMBER, SECOND STAGE ROCKET MEANS CAPABLE OF BEING PROPELLED BY AIR PRESSURE AWAY FROM SAID MEMBER POSITIONED UPON SAID SECOND END OF SAID MEMBER FOR RECEIVING AIR PASSING SAID PRESSURE RESPONSIVE VALVE MEANS SO AS TO BE PROPELLED AWAY FROM SAID MEMBER.

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