Shock absorbing device

Abstract

The present invention relates to a shock absorbing device incorporating a plurality of wavy shaped elements made of a superelastic material arranged in a crossing pattern, wherein pairs of crests or troughs of said wavy shaped elements made of a superelastic material are restrained to each other in a locking manner by way of connecting elements.

Claims

1. A shock absorbing device (10; 40; 50; 60; 70) comprising a plurality of elements (11, 11 . . . 11.sup.n, 12, 12, . . . 12.sup.n) made of a superelastic NiTi based alloy material, wherein said elements (11, 11 . . . 11.sup.n, 12, 12, . . . 12.sup.n) have a wavy shape featuring a plurality of crests and troughs between which straight portions are arranged, and wherein the elements (11, 11 . . . 11.sup.n, 12, 12, . . . 12.sup.n) are arranged so as to form a pattern with a plurality of pairs of crossing crests and/or crossing troughs, said shock absorbing device also comprising a plurality of connecting elements (13, 13 . . . 13.sup.n; 14, 14, . . . 14.sup.n; 63, 63, . . . 63.sup.n; 73, 73, . . . 73.sup.n) configured to restrain in a locking manner a number of said pairs of crossing crests or crossing troughs, each of said connecting elements (13, 13 . . . 13.sup.n; 14, 14, . . . 14.sup.n; 63, 63, . . . 63.sup.n; 73, 73, . . . 73.sup.n) locking between 1 and 72 pairs, while leaving said straight portions free to move.

2. A shock absorbing device (10; 40; 50; 60; 70) according to claim 1, wherein said connecting elements are blocks (13, 13 . . . 13.sup.n; 14, 14, . . . 14.sup.n; 63, 63, . . . 63.sup.n, 73, 73, . . . 73.sup.n) made of a rigid material or weld spots.

3. A shock absorbing device (10; 40; 50; 60; 70) according to claim 2, wherein said rigid material is chosen from plastics, light metals, glass wool, carbon or aramid composites.

4. A shock absorbing device (10; 40; 50; 60; 70) according to claim 1, wherein said elements made of a superelastic material (11, 11 . . . 11.sup.n, 12, 12, . . . 12.sup.n) are chosen from wires and tubes having a circular or rectangular cross section.

5. A shock absorbing device (10; 40; 50; 60; 70) according to claim 4, wherein said wires have a diameter or a larger lateral dimension comprised between 250 m and 1000 m.

6. A shock absorbing device (10; 40; 50; 60; 70) according to claim 1, wherein said pattern is a rectangular grid.

7. A shock absorbing device (10; 40; 50) according to claim 1, wherein each connecting element (13, 13 . . . 13.sup.n; 14, 14, . . . 14.sup.n) restrains in a locking manner only one pair of crests or troughs.

8. A shock absorbing device (60) according to claim 1, comprising connecting elements (63, 63, . . . , 63.sup.n) having a square shape, each of said connecting elements (63, 63, . . . , 63.sup.n) restraining in a locking manner 4 to 64 pairs of crests or troughs.

9. A shock absorbing device (70) according to claim 1, comprising connecting elements (73, 73, . . . , 73.sup.n) restraining in a locking manner a number of pairs of crests or troughs arranged in a row.

10. A shock absorbing device (70) according to claim 9, wherein said number of pairs of crests or troughs restrained in a locking manner by any of the connecting elements (73, 73, . . . , 73.sup.n) is comprised between 2 and 72.

11. A shock absorbing device (70) according to claim 9, comprising a connecting element (73, 73, . . . , 73.sup.n) for each row of the pattern and wherein each connecting element joins all the pairs of crests or troughs along the respective row.

12. A shock absorbing device (40) according to claim 1, comprising at least one connecting element (13, 13 . . . 13.sup.n; 63, 63, . . . , 63.sup.n) restraining in a locking manner one or more pairs of crests and at least one connecting element (14, 14, . . . 14.sup.n) restraining in a locking manner one or more pairs of troughs.

13. A human body protection system comprising a shock absorbing device (10; 40; 50; 60; 70) according to claim 1.

14. A human body protection system according to claim 13, wherein said system is a vehicle seat, a biker garment, a military vest or a sporting apparel.

15. A shock absorbing device (10; 40; 50; 60; 70) according to claim 2, wherein said elements made of a superelastic material (11, 11 . . . 11.sup.n, 12, 12, . . . 12.sup.n) are chosen from wires and tubes having a circular or rectangular cross section.

16. A shock absorbing device (10; 40; 50; 60; 70) according to claim 3, wherein said elements made of a superelastic material (11, 11 . . . 11.sup.n, 12, 12, . . . 12.sup.n) are chosen from wires and tubes having a circular or rectangular cross section.

17. A shock absorbing device (10; 40; 50; 60; 70) according to claim 2, wherein said pattern is a rectangular grid.

18. A shock absorbing device (10; 40; 50; 60; 70) according to claim 3, wherein said pattern is a rectangular grid.

19. A shock absorbing device (10; 40; 50; 60; 70) according to claim 4 wherein said pattern is a rectangular grid.

20. A shock absorbing device (10; 40; 50; 60; 70) according to claim 5, wherein said pattern is a rectangular grid.

Description

(1) The present invention will be further disclosed in the following by way of a detailed description of some embodiments thereof. In the description reference will be made to the figures of the attached drawings, wherein:

(2) FIG. 1 is a photo showing a top view of a shock absorbing device according to an embodiment of the present invention in a substantially flat configuration;

(3) FIG. 1A is a schematic representation of the shock absorbing device of FIG. 1;

(4) FIG. 2 is a photo showing a side view of the shock absorbing device of FIG. 1 in an arched configuration;

(5) FIG. 3 is a photo showing a side view of the shock absorbing device of FIG. 1 system in a warped configuration;

(6) FIG. 4a is a photo showing a front view of a shock absorbing device according to another embodiment of the present invention;

(7) FIG. 4b is a schematic representation of the photo of the shock absorbing device in FIG. 4a.

(8) FIGS. 5, 6, 7 are top views schematically showing further embodiments of the shock absorbing device according to the present invention.

(9) In the drawings the size of some components of the shock absorbing device has been altered so as to improve readability and understanding of the invention.

(10) FIGS. 1, 1A, 2 and 3 show a shock absorbing device 10 according to an embodiment of the invention. The shock absorbing device 10 comprises e.g. twenty wavy shaped elements 11, 11, . . . , 11.sup.n, 12, 12, . . . , 12.sup.n, that are e.g. in the form of wires made of a superelastic material. The superelastic material is e.g. Nitinol and the wires may have a diameter of e.g. 0.6 mm.

(11) The wavy shaped elements 11, 11, . . . , 11.sup.n, 12, 12, . . . , 12.sup.n, feature a plurality of crests and troughs between which straight portions are arranged. The crests and troughs have e.g. a U shape and are arranged so as to form e.g. a pattern having the shape of a rectangular grid 614, wherein their crests cross each other substantially perpendicularly forming 84 pairs. The crests of each pair are restrained to each other in a locking manner by a respective connecting element e.g. in the form of a block 13, 13, . . . , 13.sup.n, made of a rigid material such as e.g. polycarbonate or acrylonitrile butadiene styrene (ABS), light metals such as aluminum, glass wool, carbon or aramid composites. The present invention is not limited to any specific material for the rigid blocks.

(12) The device according to the embodiment of the invention shown in FIGS. 1 to 3 has e.g. a substantially rectangular shape having a size of 6 cm13 cm and a height of 2 cm, and featuring eighty four pairs of crests joined by as many respective blocks. The photos of the prototype shown in FIGS. 1, 2 and 3 have been enlarged in order to better appreciate its features.

(13) The superelastic, wavy shaped elements can be wires having a circular or rectangular cross section or tubes having an inner diameter ranging from 0.2 mm to 2 mm. Preferred are superelastic elements in the form of wires with a circular cross section having a diameter comprised between 250 and 1000 m. Since the superelastic elements are real objects, their cross sections might not be perfectly circular, so the term diameter is to be intended as the diameter of the circle enclosing the real cross section.

(14) Wires having a different cross section, such as e.g. a rectangular cross section, may also be employed. These wires provide the shock absorbing device with a different buckling behavior, and hence a different energy absorbing performance, depending on the impact direction. In this case the term size indicates the larger lateral dimension of the wire.

(15) With particular reference to FIGS. 2 and 3, the shock absorbing device 10 as described above may be easily deformed, e.g. bent or twisted, thanks to the grid pattern arrangement of the wavy shaped superelastic elements and to the locking restraints defined by the connection elements, thereby allowing to use it as an insert in human body protection items. Motorcyclist jackets are among the most interesting applications of the shock absorbing device of the invention.

(16) FIGS. 1 to 3 show an embodiment of the invention according to which only the crests of the wavy shaped superelastic elements 11, 11, . . . , 11.sup.n, 12, 12, . . . , 12.sup.n cross each other and are restrained in a locking manner e.g. two by two by respective blocks 13, 13, . . . , 13.sup.n.

(17) It will be appreciated that in a fully equivalent manner the troughs of the wavy shaped superelastic elements 11, 11, . . . , 11.sup.n, 12, 12, . . . , 12.sup.n might be restrained in a locking manner to each other instead of the crests, e.g. two by two by respective blocks 13, 13, . . . , 13.sup.n.

(18) Now referring to FIGS. 4a and 4b, according to a further embodiment of the invention not only the crests, but also the troughs of the wavy shaped elements 11, 11, . . . , 11.sup.n, 12, 12, . . . , 12.sup.n of the shock absorbing device 40 may be arranged so as to cross each other and form pairs that may be restrained in a locking manner by respective connecting elements.

(19) As shown in FIGS. 4a and 4b, the pairs of crests are restrained in a locking manner by respective blocks 13, 13, . . . , 13.sup.n as in the embodiment shown in FIGS. 1 to 3, while the pairs of troughs are restrained in a locking manner by similar further blocks 14, 14, . . . , 14.sup.n.

(20) This embodiment of the invention features a structure that is still bendable but stiffer than the structure of the device according to the embodiment shown in FIGS. 1 to 3. This is due to the higher number of pairs of crossing crests and troughs restrained in a locking manner. Such structure offers the advantage of being more stable and hence suitable to withstand higher shocks if compared to the structure of the device according to the embodiment of FIGS. 1 to 3.

(21) The deformability characterizing the shock absorbing device of the invention allows to easily adapt it to any shape and hence to arrange, fit and more generally integrate it into a shock absorbing system so that the straight portions of the wavy shaped superelastic elements are aligned in the foreseen impact direction. This allows to exploit their buckling effect as a means to absorb impact energy, i.e. their ability as slender structures to have a transition from simple compression to bending under compressive loads and impacts, with consequent large deformation and absorption of impact energy, as e.g. described in the aforementioned European patent 2,992,240.

(22) It is important to underline that this deformability that characterizes the shock absorbing devices according to present invention is also a consequence and is achievable due to the fact that each of the locking elements connects a limited number of crests or troughs and specifically does not restrain at the same time crests and troughs.

(23) Now referring to FIGS. 5 to 7, further embodiments of the shock absorbing device according to the present invention will be disclosed.

(24) FIG. 5 shows a shock absorbing device 50 wherein, compared to the embodiment of FIGS. 1 to 3 and 4, only a small number of pairs of crossing crests or troughs are restrained in a locking manner by connecting elements. It will be appreciated that for the purposes and effects of the present invention it is not necessary that all the pairs of crests or troughs are restrained in a locking manner.

(25) FIG. 6 shows a shock absorbing device 60 according to another embodiment of the invention, comprising a number of first connecting elements 13, . . . , 13.sup.n restraining a single pair of crests or troughs, and a number of second connecting elements 63, 63, . . . , 63.sup.n, restraining more pairs of crests or troughs, e.g. four pairs. The bigger connecting elements 63, 63, . . . 63.sup.n define regions of the shock absorbing device having a higher capability to withstand load/shocks, because impact forces are spread over a larger area wherein the related high number of superelastic elements allows to absorb a higher amount of energy. According to a preferred embodiment of the invention square shaped blocks made of a rigid material may join 4 to 64 pair of crests or troughs.

(26) FIG. 7 shows a shock absorbing device 70 according to a further embodiment of the invention. In this case straight blocks 73, 73, . . . , 73.sup.n made of a rigid material restrain in a locking manner a plurality of pairs of crests or troughs arranged in rows.

(27) More particularly, the embodiment shown in FIG. 7 comprises a connecting element for each row of the grid pattern restraining in a locking manner all the pairs of crests or troughs along the respective row.

(28) It will be appreciated that this embodiment of the shock absorbing device of the invention is highly deformable, more particularly bendable, perpendicularly to the straight blocks 73, 73, . . . , 73.sup.n, whereas it is substantially not deformable in the direction along which they extend.

(29) This embodiment of the shock absorbing device of the invention may be advantageously integrated e.g. in the back of motorcyclist jackets, where a high impact resistance is required and at the same time a high degree of bendability with respect to a given axis is needed. Still in this case superelastic elements with a non-circular cross section may advantageously be used so as to maximize energy absorption and bendability in one direction.

(30) The invention is not limited to any specific superelastic material, even though preferred are NiTi based alloy such as Nitinol. Nitinol may exhibit alternately superelastic wire behavior or shape memory alloy behavior according to its processing. The properties of Nitinol and methods allowing to achieve them are widely known to those skilled in the art, see e.g. the article A Study of the Properties of a High Temperature Binary Nitinol Alloy Above and Below its Martensite to Austenite Transformation Temperature by Dennis W. Norwich presented at the SMST 2010 conference.

(31) The shock absorbing devices according to the present invention can be used directly as inserts in shock absorbing systems, or may comprise outer layers or elements restrained to the connecting elements, e.g. the blocks, restraining in a locking manner the pairs of crests or troughs of the wavy shaped superelastic elements. Any material may be employed to make such outer layers provided that it does not increase the structural rigidity of the device that shall essentially be determined by the connecting elements.

(32) Outer layers can also be added with the purpose of improving the shock absorbing degree of the device, e.g. by connecting all pairs of crests or troughs so as to avoid passage of objects having a cross section smaller or comparable to the size of the connecting elements. Suitable materials for the outer layers are e.g. leather, cotton, Nylon, Elastan, Cordura and Gore-tex fabrics.

(33) In a second aspect thereof the invention relates to a human body protection system incorporating one or more shock absorbing devices according to the invention. Examples of these devices include auto vehicle seats, biker garments, military vests, sporting apparels.

(34) The present invention has been disclosed with reference to preferred embodiments thereof. It will be appreciated that further embodiments relating to the same inventive idea may exist, all encompassed within the scope of protection of the claims set forth below.