Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.

Patents

  1. Advanced Patent Search
Publication numberUS2899685 A
Publication typeGrant
Publication dateAug 18, 1959
Filing dateNov 8, 1955
Publication numberUS 2899685 A, US 2899685A, US-A-2899685, US2899685 A, US2899685A
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
bourcier de carbon
US 2899685 A
Abstract  available in
Images(1)
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

Aug. 18, 1959 c. M. L. L. BOURCIER DE CARBON 2,399,635

RESILIENT STILTS Filed. Nov. 8, 1955 INVENTOR a W a who BY 6 a4 M y yam ATTORNEYS Unite 1 States Patent D 2,899,685 RESILIENT STILTS" ChristianM. L. L.-B'ourcier de carbon, Neuilly-sur-Seiue, France.

Application November 8, 1955, SrialjNb. 545,670

2 Claims. (Cl. 3 --4) This invention relates to' resilient stilts and has for its general object the provision of novel andimproved re silient or elastic stilts which involve the use ofpneumatic cushioning devices.

Caricaturists and humoristshave already dreamed of arranging coil springs, that is to say, metal helical springs, under the sole of the shoes of imaginary: personages so as to thus constitute a kind of portable springboard, making it possible to eifect spectacular jumps, for example to jump over the roofsof houses. In this simple form, this idea actually constitutesonly a Utopian dream -and this for several reasons:

(1) In order to jump to a certain height simply because of the elastic strengthof the spring, it-is necessary to have a sufficiently long stroke of spring. Under such conditions of length, a coil spring would not be laterally stable and would become deformed in all directions, giving rise to the well-known phenomenon-of buckling when one would try to makeit work.

(2) In order to permit the making of appreciable jumps, that is to say, in order for a man to jump to a-certa-in height, the spring would have to be able to store a corresponding quantityof power, that is to say, a' considerable number of kilogram-meters. Now. ametal spring can store without breakage, only a comparatively small quan tity of kilogram meters, perkilogramof metal. If one calculates the order of magnitude,- one-easily realizes that inorder to make jumps of considerable height, it would be necessary toplace under each foot some rather heavy springs and therefore, it would be very uncomfortable.

In the over-simplified-formof a metal coil spring, the elastic sole is therefore. only a.hurnorous idea of Utopian quality, without any practical interest; because it constitutes a contradiction with the actual propertiesof. matter and in particular, the properties. of metal springs. However, this Utopian idea, provided. that it is assisted by a suitable technical analysis, may be considered as containing latently, the germ of one of the most curious inventions, namely, the pneumatic stilt, and actual sevenleague boot.

From the preceding analysis, it results as a matter of fact that a jumping skate or a portable jumping board must, first of all, comply with the following two conditions:

(1) It must permit a rather long expansion stroke, vertically, and a stroke as large as possible.

(2) It must allow the sole to move only longitudinally in the direction of the leg and it must absolutely prevent any transverse displacement.

These two absolute requirements can be complied with and this is the first aspect of the present inventionby making the jumping apparatus in the form of a stilt with an elastic leg.

Other objects and features of novelty will be apparent from the following specification, when read in connection with the accompanying drawings in which one embodiment of the invention is illustrated by way of example.

In the drawings:

2; Figure 1 is -a view inelevation of a stilt having elastic or spring supporting means; and

Figure 2 is avertic-al sectional view of a pneumatic device-which is used in providing a-pneumaticallyssupe ported stilt inaccordance with the invention.

Referring to Figure 1', the invention essentially'consists of a stilt consisting of two parts:

(1) A framework A which is substantially rigid with the leg]- (Figure 1) and, for example, is fastened to -the latter on the one hand by a stirrup E' on which the foot willrest or by'any other equivalent fasteningsystem, and on the other hand, by 'a beltF tightly secured-to the leg below the knee.

(2') A vertical rod T which is-rigid' and is arranged so as'to extend beyond the leg as in the conventional-stilt, is so mounted as to be capableof sliding in the'-frame work A and is elastically connected 'with this framework, so as toflex' to a" greater or lesser extent under the load like a' spring.

The core of this elastic connection could be a metal spring; forexample; acoil spring which would" have the drawback already pointed out of being rather heavy.

In. order to reduce the weight, one could use a-rubber spring, sucha spring making it possible to store agreater amounttofienergy for the same-mass ofmatter. Such a rubberspring could be made, for example, by a ribbon or tape R; Figure 1, or a ring or a series of rubber rings.

However, the spring-which for a given weight makes lit possible: to" store-the greatesrquantity of mechanic-al energy, is the pneumatic spring: The preferred formor shape of" the elastic'stiltis therefore the pneumatic stilt and" this also is oneofthe most important-aspects of the present invention.

Such a pneumaticstil-t isessentia'lly constituted on the onehandby cylinder C, Figure 2,;closed at its upper. end, this cylinder playing the part of the framework A ofFigme 11, anion theotherhand by a cylindrical rodB (corresponding to partT in Figure l)'which slides in-cylind'er C and protrudes partly outside ofthe latter, thesetwo members movable-With respect'toeach other; thus constituting an inner receptacle" ofvariable volume due to the packing D calri'ed on the lower part of cylinder. C.

Also, the cylinder C is provided with an inflatingval've V' making it possible to inject inside the said receptacle air under pressure so. as to: extend-the rod 3 outwardly thus. constituting a veritable pneumatic spring. Therod B may besolid'but shouldpreferably be tubular-as shown in Figure 2".

Furthermore, in order to assure the guiding-of" the cylindrical rod B, the latter may be provided'at its upper part with ailange or pseudo-piston P, sliding-without any appreciable play inside the cylinder C and perforated with openings 0 so as to provide relatively unrestricted communication between the receptacles M and N. The whole rod and flange assembly constitutes a plunger member having a sealed or packed sliding relation with the cylinder member, and is of a volume which causes an appreciably increased compression of the compressible fluid in the cylinder when the two members are telescoped and successive increments of the plunger enter the cylinders.

Furthermore, also, a few cc. of oil could be injected above the packing gasket D so as to lubricate the gasket.

The pneumatic stilt which is the subject matter of the present invention will make it possible to make very spectacular jumps because it will operate like a portable jumping board which is perfectly elastic and the reaction force and the extension stroke of which may be as great as desired. The sole loss of energy or power at each The elastic stilt may also be used to improve the performances in running races and walkingthe essential reason being that the speed of man on his own legs is very limited and is especially fatiguing so that running is nothing but a succession of leaps and at each leap, the energy of the vertical component of motion must first of all be entirely destroyed due to the negative muscular work (negative work which also causes as much fatigue as positive work as is well known by all those who traveled long stretches down mountains), before it is again reconstituted by positive work of the same muscle. This is the essential reason why the energy yield when running races is very low and this is also Why performances in racing remain very limited even when the slope favors the run because in such a case althoughthe positive muscular work is reduced, this is almost compensated from the point of view of fatigue by the increase in negative work which absorbs power or energy and which also creates fatigue.

This poor yield of power in running explains why a man on a bicycle can move more rapidly with less fatigue by simply using his muscular energy in spite of the resistance to the rolling of the tire on the ground, which resistance is not negligible. The elastic stilt operates particularly without any dissipation of energy, the energy of the fall not being destroyed but only stored and made available for the next jump. The use of elastic stilts will, therefore, permit man to walk or to run much faster and with much less fatigue. The progress in this field will probably be comparable to that obtained by the use of a bicycle, with the advantage of being able to jump without any difficulty above obstacles and of being able to use any ground provided that it is sufliciently firm, while a bicycle demands ground which must be prepared for this purpose and in practice, cannot be used except on roads and highways.

Actually, there is concerned in this connection an entirely novel sport of many varied aspects which will enable the user of the stilt, thanks to displacement in three dimensions, to experience an entirely novel sensation which might be termed that of semi-flight. This is the dream of the seven-league boot finally made into a reality due to a rational technical analysis.

However, the more spectacular and more sensational aspect of this new mode of locomotion is that of a novel down-hill sport which could be to a certain extent compared with skiing. As a matter of fact, the reason why skiing, and in particular mountain skiing, is so successful, is because of the sensation of space and of motion and even one could say of trajectory which it permits its fans to experience. It is obvious that sensations of this kind and perhaps even more intense than those experienced when simply sliding on skis can be expected from this new sport if it is considered as a down-slope sport. As a matter of fact, it will be possible to make jumps of considerable magnitude very easily and almost without fatigue, inasmuch as the necessary energy is automatically supplied at each jump or leap as a result of the diflerence in levels.

In order to make it possible to retain ones equilibrium, it will be advantageous to practice this downhill sport with a supporting stick in each hand as is done when skiing, and this, furthermore, increases the similarity between the two sports. Finally, the same means for reascending mechanically which are used in winter for skiing could be used in summer for this new down-hill sport.

Having thus described the invention, what is claimed as new and desired to be secured by Letters Patent is:

l. A jumping device particularly for sport use comprising a hollow cylinder closed at the top, a plunger rod entering the cylinder through the lower end thereof and adapted to reciprocate therein, an airtight sealing packing at the lower end of the cylinder through which the plunger rod passes, the lower end of said plunger rod comprising the ground contacting portion of the device, a supply of gas under pressure in said cylinder, said plunger having at its upper end portion a flange, the peripheral margin of which is in free sliding contact with the inner wall of the cylinder for the purpose of axial guidance only, the flange being provided with openings large enough for the free passage of gas therethrough so as to place the space in the cylinder above the flange and the space beneath the flange between the flange and said packing and surrounding the plunger in free communication with each other.

2. The jumping device as set forth in claim 1 in which the plunger member is hollow, having a closed lower outer end and having an open upper inner end communicating with the compressed air-filled interior of the cylinder, thus serving to increase the volume of compressed air within the system, and in which the cylinder is provided with means for securing it to one of the lower limbs of the user.

References Cited in the file of this patent UNITED STATES PATENTS 675,912 Wenneborg June 11, 1901 767,008 Pelletier et al Aug. 9, 1904 1,545,437 Malone et al July 7, 1925 1,575,847 King et al. Mar. 9, 1926 2,068,578 Stronach Ian. 19, 1937 2,783,997 Gaffney Mar. 5, 1957 FOREIGN PATENTS 353,119 Germany Dec. 28, 1920 650,009 Great Britain Feb. 7, 1951 68,709 Netherlands Sept. 15, 1951

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US675912 *May 7, 1900Jun 11, 1901Henry Wenneborg JrArtificial limb.
US767008 *Jan 11, 1904Aug 9, 1904Louis J PhelanExercising-machine.
US1545437 *Oct 21, 1924Jul 7, 1925Albert H VestalExercising toy
US1575847 *Nov 19, 1925Mar 9, 1926Charles HamiltonJumper
US2068578 *May 15, 1935Jan 19, 1937Joseph Stronach EdwinExercising device
US2783997 *Jun 7, 1954Mar 5, 1957Gaffney William NPogo stick
DE353119C *May 11, 1922Georg Erich HaehnelVorrichtung zur Fortbewegung von Personen
GB650009A * Title not available
NL68709C * Title not available
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3065962 *Jul 28, 1959Nov 27, 1962Hoffmeister Ernst WJumping equipment
US3110492 *Apr 18, 1961Nov 12, 1963Hoffmeister Ernst WJumping equipment
US3278946 *Jun 4, 1964Oct 18, 1966Godwin Charles RAdjustable stilt
US5217500 *Jan 12, 1990Jun 8, 1993Phillips L VanProsthetic leg
US5458656 *Dec 20, 1993Oct 17, 1995Flex-FootEnergy-storing prosthesis leg pylon vertical shock leg
US5486209 *Jul 1, 1994Jan 23, 1996Phillips; Van L.Foot prosthesis having auxiliary ankle construction
US5509938 *Jan 4, 1994Apr 23, 1996Phillips; Van L.Prosthetic foot incorporating adjustable bladder
US5514185 *Jan 21, 1994May 7, 1996Phillips; Van L.Split foot prosthesis
US5549714 *Jan 12, 1995Aug 27, 1996Phillips; Van L.Symes foot prosthesis
US5593457 *Sep 22, 1995Jan 14, 1997Phillips; Van L.Foot prosthesis having auxiliary ankle construction
US5976191 *Oct 8, 1996Nov 2, 1999Phillips; Van L.Foot prosthesis having curved forefoot
US6406500Nov 2, 1999Jun 18, 2002Van L. PhillipsFoot prosthesis having curved forefoot
US6443995Dec 22, 2000Sep 3, 2002Barry W. TownsendProsthetic foot
US6478826Apr 9, 1999Nov 12, 2002Van L. PhillipsShock module prosthesis
US6511512Apr 24, 2000Jan 28, 2003Ossur HfActive shock module prosthesis
US6527811Dec 16, 1997Mar 4, 2003Van L. PhillipsFoot prosthesis with modular foot plate
US6558265Mar 5, 2001May 6, 2003Bruce MiddletonScalable high-performance bouncing apparatus
US6743260Jul 31, 2001Jun 1, 2004Barry W. TownsendProsthetic foot
US6887279Jan 28, 2003May 3, 2005össur hfActive shock module prosthesis
US6936074Mar 2, 2004Aug 30, 2005Barry W. TownsendProsthetic foot
US6969408Sep 30, 2003Nov 29, 2005Ossur Engineering, Inc.Low profile active shock module prosthesis
US7070023 *Nov 4, 2003Jul 4, 2006Denny WaxlerAdjustable stilt
US7108723Jun 10, 2004Sep 19, 2006Townsend Barry WProsthetic foot
US7163518 *Apr 14, 2004Jan 16, 2007Rgpartnership LlpWalking leg support
US7169190May 2, 2005Jan 30, 2007Van L. PhillipsActive shock module prosthesis
US7331909Feb 17, 2004Feb 19, 2008Bruce MiddletonScalable high-performance bouncing apparatus
US7371262Sep 2, 2005May 13, 2008össur hfLow profile active shock module prosthesis
US7686744Mar 30, 2010J.M. Originals, Inc.Scalable high-performance bouncing apparatus
US20020087216 *Feb 25, 2002Jul 4, 2002Atkinson Stewart L.Prosthetic walking system
US20040068325 *Jun 24, 2003Apr 8, 2004Phillips Van L.Shock module prosthesis
US20040199265 *Mar 2, 2004Oct 7, 2004Townsend Barry W.Prosthetic foot
US20040225376 *Jun 10, 2004Nov 11, 2004Townsend Barry W.Prosthetic foot
US20050071017 *Sep 30, 2003Mar 31, 2005Lecomte Christophe GuyLow profile active shock module prosthesis
US20050075182 *Feb 17, 2004Apr 7, 2005Bruce MiddletonScalable high-performance bouncing apparatus
US20050092552 *Nov 4, 2003May 5, 2005Denny WaxlerAdjustable stilt
US20050209707 *May 2, 2005Sep 22, 2005Phillips Van LActive shock module prosthesis
US20060004467 *Sep 2, 2005Jan 5, 2006Lecomte Christophe GLow profile active shock module prosthesis
US20080108449 *Jan 3, 2008May 8, 2008Bruce MiddletonScalable high-performance bouncing apparatus
Classifications
U.S. Classification623/28, 482/77, 482/75, 267/127
International ClassificationA63B25/02, A63B25/00
Cooperative ClassificationA63B25/02
European ClassificationA63B25/02