FR2946260A1 - Launching toy for use in kit, has folding unit maintaining free end during fall of toy with center of gravity located under wings for causing gyration of toy, where folding unit is inclined with respect to direction of length of band - Google Patents

Abstract

The toy (1) has wings (8a, 8b) assembled on a central body (2) distributed around a longitudinal axis (6). The wings are shifted along the axis direction with respect to a center of gravity (G). Each wing uses a band presenting a folding unit (12) separating a free end (10a) of the wings and a central portion (10b). The folding unit is inclined with respect to direction of length of the band. The folding unit maintains the free end during the fall of the toy with the center of gravity located under the wings for causing gyration of the toy. The band is made of flexible material i.e. plastic.

Description

The present invention relates generally to a toy to be launched, preferably using a launcher such as an elastic launcher. More specifically, the subject of the invention is a throwing toy comprising a central body and a plurality of fins mounted on said central body being distributed in a regular manner about a longitudinal axis of said toy, axis in the direction of which said fins are offset with respect to a center of gravity of the toy, each fin being made with a band having a first fold separating a free end of the fin and a central portion thereof, said first fold inclined relative to the direction orthogonal to the direction of the length of the strip, keeping the free end inclined with respect to said central portion so that the pressure of the air on that end during the fall of the toy with its center of gravity located under the fins, causes a gyration of said toy on itself.

Thus, the toy according to the invention has a simple design to rotate it on itself during its fall, which has the effect of appearing this fall braked to a helicopter flight, without requiring external input d 'energy. Indeed, the toy operates passively, that is to say by simply air flow 2 on the fins of the toy encountered during the fall thereof, after its launch. Even if the toy could be launched with the simple force of the arm by the user, from the ground upwards or from a point high down, it is preferably intended to be launched with a launcher, for example a launcher elastic slingshot type. The use of such a launcher makes it possible to project the toy to a height of several tens of meters when it is launched from the ground, and makes it possible to obtain a fall of considerable duration, of the order of several seconds. . Preferably, the toy is designed so that its gyration during the fall causes each fin to move from a neutral position to an extended position in which its free end is further away from said longitudinal axis. This displacement is preferably effected automatically under the effect of the centrifugal force applied to the free ends of the fins, and resulting directly from the gyration of the toy during the fall. This specificity can be obtained by providing flexible fins in the span direction corresponding to the direction of the length of the strip, and / or by providing flexible junctions between the fins and the central body of the toy. In the latter case, the fins are not necessarily flexible / flexible. In any event, the above-mentioned feature also reflects the fact that the fins can occupy their neutral position during the launch of the toy, thus offering little resistance to advancement 3 in the air. As a result, the toy can be launched at greater heights, leading to longer falls, giving the user more pleasure.

Preferably, as mentioned above, each strip is made of flexible material, preferably plastic such as PVC, celluloid. The band preferably has a thickness less than 1 mm, and even more preferably less than 0.1 mm. In addition to the fact that such a design is clever and inexpensive, it also helps to further curb the fall of the toy, leading to even longer falls. This is explained by the fact that during the spinning of the toy, the central portion of each rotating fin simultaneously undergoes a slight twist in the direction of the length of the strip, advantageously leading to the appearance of a residual lift. This twist, similar to a twisting, is allowed by the flexibility / flexibility of the band. Preferably, each strip comprises a second fold separating the central portion of the fin and a connecting portion thereof on the central body of the toy. Preferably, the toy comprises two fins made from the same band mounted on the central body of the toy. Of course, the number of fins could be higher, always by arranging them regularly around the main axis 4 of the toy body, without departing from the scope of the invention. Preferably, said strip is folded at its center by a third fold separating a connecting portion of one of the two fins on the central body of the toy, and a connecting portion of the other fin on the central body. Preferably, said central body comprises a rod extending in the direction of said longitudinal axis. Preferably, said rod carries a gripping plate at one of its ends, and a hook for cooperating with an elastic launcher at its other end. Finally, the toy also preferably comprises a light source arranged on the body so as to illuminate at least one of the fins. The invention also relates to a kit 20 comprising a toy as described above, and a launcher of said toy, preferably of the type launcher elastic. Other advantages and features of the invention will become apparent in the detailed non-limiting description below. This description will be made with reference to the appended drawings among which; FIG. 1 shows a front view of the toy to be cast according to a preferred embodiment of the present invention, in a rest configuration; FIGS. 2a and 2b respectively represent the two side views of the toy shown in FIG. 1; - Figure 3 shows the central body 5 of the toy shown in the previous figures; - Figure 4 shows the two wings of the toy shown in the previous figures, when they are unwound on a plane; FIGS. 5a and 5b show schematic views for explaining the assembly of the toy shown in the preceding figures; FIGS. 6a to 6c show the operation of the toy shown in the preceding figures; and Figure 7 shows a partial top view of the object shown in Figure 6c. Referring firstly to FIGS. 1 to 4, it is possible to perceive a toy to be launched 1 according to a preferred embodiment of the present invention. This toy 1 generally comprises a central body 2 essentially comprising a rod 4 extending along a longitudinal axis 6 corresponding to the main axis of the toy, intended to be oriented substantially vertically during the fall thereof, as will be the case. explained below. In addition, the toy comprises a plurality of fins mounted on the central body 2, here two fins 8a, 8b disposed on either side of the longitudinal axis 6, forming an axis of symmetry for these two fins. In the case where a number of fins greater than two would be retained, it is specified that they are always distributed evenly around this same axis 6. One of the peculiarities of the present invention lies in the fact that each fin 8a, 8b is made from a flexible material strip 10, of thickness less than 1 mm, and even more preferably less than 0.1 mm, preferably made of PVC or celluloid. Each of the two strips 10 has a first fold 12 separating a free end 10a of the fin and a central portion 10b thereof. The first fold 12 is provided inclined relative to the orthogonal direction 14 to the direction of the length 16 of the strip 10, that is to say the direction of the width of the strip, as is best seen in FIGS. 2a, 2b and 4. This inclination can be represented by an angle A between the straight fold 12 and the direction of the width 14 of the strip, this angle A being for example between 30 and 60 °. It is therefore according to this same fold 12 that the free end 10a of the fin is folded, and maintained inclined relative to the central portion 10b. This inclination of the free end 10a is such that it extends more downwards than upwards from the fold 12, when the toy is seen as shown in Figure 1, implying that the surface of intrados of this free end 10a is found substantially opposite the intrados surface of the central portion 10b. The direction of the inclination A of the first fold 12 with respect to the orthogonal direction 14 conditions the direction of the gyration which will be obtained by the flow of air on this free end 10a. Of course, the two folds 12 present respectively on the two fins 8a, 8b are made to generate a gyration of the toy in the same direction. In this regard, it is noted that in the figures, the gray portions on the fins 8a, 8b correspond to the extrados surfaces, while the non-gray portions correspond to the intrados surfaces. In addition, each band 10 has a second fold 18 separating the central portion 10b and a connecting portion 10c of the fin on the central body 2. This second fold 18 is substantially orthogonal to the longitudinal axis 6. Thus, each fin 8a, 8b comprises the connecting portion 10c extending along the rod 4 being partially convex towards the longitudinal axis 6 as will be explained hereinafter, followed by the central portion 10b which can itself be split into two sub-portions 10b ', 10b "separated by a fold 20, also substantially orthogonal to the axis 6. In the neutral position shown in Figure 1, only a small inclination is provided between the connecting portion 10c and the sub-portion 10b', 10b" portion 10b "adjacent thereto, just as a slight inclination is provided between the two sub portions 10b ', 10b" according to the fold 20. In addition, each of the elements 10c, 10b ", 10b', 10a is substantially plane, and the slope between the plane of the free end 10a and the plane of the sub-portion 10b 'of the fin is set between 5 and 40 °. In addition, only the free end 10a is not orthogonal to the longitudinal axis 6, 8 the other portions of the fin 10c, 10b ", 10b 'being in fact each substantially perpendicular to this axis 6. In the neutral state shown in Figure 1, the various inclinations between the elements 10c, 10b ", 10b 'and 10a are maintained by the folds, obtained for example by hot plastic deformation of the strip. To facilitate the production of the toy 1, it is expected that the two fins 8a, 8b are made from the same band 100, thus comprising the two continuous subbands 10. Such a band 100 is shown in a manner unrolled on a Figure 4. Thus, in this figure, even if the folds 12, 18, 20 have been shown, the inclinations between the portions they connect have not been schematized. The left part of this band 100 is made from the sub-band 10 which forms the fin 8a, while the right part is made from the other sub-band 10 intended to form the fin 8b. These two continuous sub-strips 10 are separated by a fold 24 in which the two connecting portions 10c, 10c are inclined with respect to each other, by about 180 °, so as to each marry the rod 4.

Thus, there is provided an orifice 28 centered on the band 100, namely extending over each of the two connecting portions 10c. This orifice 28 essentially allows the passage of the rod 4 between these two connecting portions 10c which marry.

In addition, to ensure satisfactory indexing of these connecting portions 10c on the rod 4, in the direction of the longitudinal axis 6, the rod is equipped with pins or pins 30 extending radially and passing through orifices 32 formed on the corresponding connecting portions 10c. To maintain the plating of these connecting portions 10c on the rod 4, and thus ensure that the orifices 32 do not escape the pins 30, appropriate means are used, such as for example a resilient 34 surrounding the two connecting portions. . It is this elastic 34 which applies the domed shape inwards to the connecting portions 10c. As visible in Figures 1, 2a and 2b, this elastic is preferably provided between the pins 30, to limit the risk that it escapes axially. With this configuration, the connecting portion of each fin 8a, 8b is perfectly secured to the body of the toy, through simple and inexpensive means. With regard to the body 2 shown in FIG. 3, it is indicated that it has not only the rod 4 extending along the longitudinal axis 6, but also comprises a gripping plate 40 at its upper end, and a hook 42 at its other end, namely its low end. The body 2 is preferably made in one piece, substantially rigid plastic material, such as ABS. The hook 42 is intended to cooperate with an elastic launcher, as will be detailed later, while the gripping plate 40 takes the form of a disc, of diameter 10 for example substantially identical to the width of an inch of a user's hand. In this regard, it is noted that the disc 40 is in a plane substantially parallel to the axis 6, and orthogonal to the central portions of fins 10b, being furthermore indicated that these same portions 10b may have an orifice 44 intended for the passage of the disc when these fins occupy their neutral position shown in Figure 1. Indeed, in this configuration, the two portions 10b are too close to each other to accommodate between them said plate 40, which is therefore projecting externally from each of these two portions 10b. Nevertheless, another solution may consist in providing the plate offset by 90 °, in which it would become parallel to the two central portions. The toy thus produced has a mass of between 4 and 1000 g, and even more preferably between 5 and 20 g, with its center of gravity G offset downwards relative to the fins 8a, 8b, that is to say shifted of these along the longitudinal axis 6 on which is preferably the center of gravity G, as shown in Figure 1. In addition, still in neutral configuration, the length of the toy along the axis 6 is preferably between 5 and 50 cm, and even more preferably between 10 and 25 cm, while the length of each fin 8a, 8b in the direction of the length 16, from the fold 18 and unwound on a plane as in Figure 4, is preferably between 3 and 30 cm, and even more preferably between 5 and 15 cm. Finally, the width of the strip 100, that is to say the width of each of the subbands 10 in the direction 14, is preferably between 0.5 and 10 cm, and even more preferably between 1 and 3 cm.

Figures 5a and 5b show how to operate the assembly of the toy 1 shown in the previous figures. To do this, the band 100 is actually placed on the body 2 by introducing the gripping plate 40 through the central opening 28 of this band. Once the passage of the platen operated, the band 100 is moved in the direction of the axis 6, downwards, that is to say in the direction of the hook 42. Once the third fold 24 correctly indexed along of the rod 4, the two subbands 10 of the band 100 are folded back to 180 °, so as to bring each of the connecting portions 10c against the rod 4, as shown schematically in Figure 5b. During this folding, it is done so as to introduce the orifices 32 of the connecting portions 10c in their corresponding pin 30, arranged on the rod 4. Then, the elastic 34 shown in Figure 1 is placed around the fins 8a, 8b, to obtain a satisfactory fixation thereof on the body 2 of the toy. Referring now to FIGS. 6a to 7, the operation of toy 1 which has just been described will be described. First of all, with reference to FIG. 6a, when throwing toy 1 upwards, the user holds in one hand a launcher 50 with an elastic band 52 to 12 using one of his hands, and then holds with the other of his hands the toy 1 in the inverted position, that is to say substantially vertically but with the hook 42 facing upwards. For gripping the toy, the user can pinch the plate 40 between his thumb and his index finger. The spacing of its two arms creates a tension in the elastic 52, which, once the platen 40 released by the user, releases the energy required for catapulting the toy 1 to several tens of meters above the ground, for example thirty meters. During this phase of raising the toy, the flexibility of the fins 8a, 8b is such that they move from their neutral position to a folded position in which they are close to one another, thus generating only one low resistance to advancement in the air, and thus allowing to reach higher heights. This folding during which the two surfaces of extrados approach each other is allowed in particular by the relative displacement between each fin and the gripping plate 40, through the orifices 44 made for this purpose. Once the ascending phase 60, shown diagrammatically in FIG. 6b, is completed, the toy 1 then begins its falling phase 62 shown schematically in FIG. 6c. During this fall, the position of the toy 1 is first quickly reversed relative to that of its ascending phase, and this due to the position of the center of gravity G with respect to the fins. As soon as the toy returns to its vertical position with its center of gravity located under the fins 8a, 8b, the flow of air 64 on the fins 8a, 8b creates a gyration 13 66 of the toy on itself, and more preferably a gyration around its longitudinal axis 6, thanks to the free ends 10a. This gyration observed during the fall of the toy generates a centrifugal force applying to each fin 8a, 8b, which is then moved from its neutral position to the extended position shown in FIG. 6c, in which its free end 10a is further away. 6. This deployment takes place thanks to the flexibility of the fins at their folds 18 and 20, but also thanks to the flexibility of the portions that compose it. This is also the same flexibility that allows a slight twist of each fin 8a, 8b along the direction and its length, as shown schematically in Figure 7. Thus, the gyration of the toy on itself , combined with the torsion of the fins 8a, 8b comparable to a twisting in the direction of span, creates a residual lift force that brakes the fall of the toy, for greater enjoyment of the user. It is noted that the inclination between the free end 10a of each fin and its adjacent sub-portions 10b 'is not substantially modified during the braked fall of the toy, and therefore remains substantially identical to the inclination adopted in a neutral configuration . As an indication, the radial length of each fin 8a, 8b, from the longitudinal axis 6, is multiplied by a factor of between 2 and 16, preferably of the order of 4, when the fin passes from its Neutral position shown in Figure 1 in its 14 deployed configuration adopted in fall, and shown in Figure 6c. In this same FIG. 6c, an alternative embodiment is shown in which the body also comprises a light source 70 mounted near the hook 42, and making it possible to illuminate the undersurface surface of at least one of the two fins. 8a, 8b, this specificity being of course retained during a launch of the toy in the dark.

Of course, various modifications may be made by those skilled in the art to the invention which has just been described, solely as non-limiting examples.

Claims (10)

REVENDICATIONS1. Throwing toy (1) characterized in that it comprises a central body (2) as well as a plurality of fins (8a, 8b) mounted on said central body and distributed regularly around a longitudinal axis ( 6) of said toy, axis in the direction in which said fins are offset with respect to a center of gravity (G) of the toy, each fin (8a, 8b) being made using a band (10) having a first fold (12) separating a free end (10a) of the fin and a central portion (10b) thereof, said first fold inclined with respect to the orthogonal direction (14) in the direction of the length (16) of the band, maintaining the free end (10a) inclined with respect to said central portion (10b) so that the pressure of the air on this end (10a) during the fall of the toy with its center of gravity ( G) located under the fins, causes a gyration of said toy on itself. 2. A toy according to claim 1, characterized in that it is designed so that the gyration of the toy during the fall leads each fin (8a, 8b) to move from a neutral position to an extended position in which its end free (10a) is further away from said longitudinal axis (6). Toy according to any one of the preceding claims, characterized in that each strip (10) is made of flexible material, preferably of plastics material. 4. A toy according to any one of the preceding claims, characterized in that each band (10) comprises a second fold (18) separating the central portion (10b) of the fin and a connecting portion (10c) thereof. on the central body of the toy. 5. Toy according to any one of the preceding claims, characterized in that it comprises two fins (8a, 8b) made from the same strip (100) mounted on the central body (2) of the toy. 6. A toy according to claim 5, characterized in that said strip (100) is folded at its center by a third fold (24) separating a portion (10c) of connection of one of the two fins on the central body of the toy and a connecting portion (10c) of the other fin on this central body. 7. Toy according to any one of the preceding claims, characterized in that said central body (2) comprises a rod (4) extending in the direction of said longitudinal axis (6). 8. A toy according to claim 7, characterized in that said rod (4) carries a gripping plate (40) at one of its ends, and a hook (42) intended to cooperate with an elastic launcher at its other end. 9. Toy according to any one of the preceding claims, characterized in that it also comprises a light source (70) arranged on the body (2) so as to illuminate at least one of the fins (8a, 8b) . 10. Kit comprising a toy (1) according to any one of the preceding claims, and a launcher (50) of said toy.