1. Technical Field
The present invention relates to a shock absorbing structure. More particularly, the present invention relates to a shock absorber having a plurality of upstanding, hollow support members made of flexible plastic material. Specifically, the invention relates to a shock absorber that is formed into an insert and is then received within a recess formed in a base structure.
2. Background Information
Helmets and other protective equipment typically use foam for impact absorption, specifically, expanded polystyrene (EPS), polyethylene (EPP) or thermoplastic blown foam. These foams do not allow heat to dissipate from the head or body. Heat stress has become a major detriment to exercise performance in athletes, industrial workers and military personnel, often leading to severe heat stroke causing death. Some work has been done with plastic structures for impact absorption with limited success because of increased weight, increased thickness or high manufacturing costs.
The prior art discloses various structures used to absorb impacts. For example, U.S. Pat. No. 6,029,962 discloses an impact absorber that has pairs of semi-hemispherical indentations used as the impact absorber. U.S. Pat. No. 4,586,200 discloses a protective helmet that has inflatable air pockets, while U.S. Pat. No. 6,536,052 shows various shapes for an impact-absorbing layer that is made of textile.
U.S. Pat. No. 4,724,549 discloses a structure with air cells and passages between the air cells to allow air to flow between the liner and the head of the wearer. This patent contemplates having air flow within the protective layer.
There, therefore, remains a need to provide a shock absorbing structure that is lighter in weight than shock absorbing foam and that allows for air circulation within the structure for cooling purposes.
The present invention provides a shock absorbing structure comprising: a base manufactured from one of an expanded polystyrene or polypropylene foam, with the base having at least one recess formed therein and including an insert that is received within the recess. The insert includes a planar surface made of a flexible plastic material; a plurality of upstanding, hollow support members extending from the planar surface, the support members made of flexible plastic material; and at least one opening in each of the support members defining an air passage within the shock absorbing structure to allow air to flow through the support members. The insert allows heat to dissipate through the base while still providing impact absorption.
According to another aspect of the invention there is provided an accessory for providing protection to a part of the human body, the accessory comprising: a rigid outer protective shell defining an interior surface; a foam base formed in the shape of the interior surface of the accessory and defining at least one recess therein; and at least one insert made from a shock absorbing material received within the recess of the base, which in turn is received proximate an interior surface of the protective shell.
Preferred embodiments of the invention, illustrative of the best modes in which Applicant contemplates applying the principles, are set forth in the following description and are shown in the drawings and are particularly and distinctly pointed out and set forth in the appended claims.
Similar numbers refer to similar parts throughout the specification.
Referring to
In accordance with one of the main features of the present invention, insert 18 includes a foam member 19 onto which generally flat or planar surface 20 is adhesively connected. Foam member 19 is manufactured from a softer foam material than base 12 for additional comfort. Disposed on the planar surface 20 is a plurality of upstanding, hollow support members 22 extending from the planar surface 20. A suitable material for planar surface 20 and sidewalls 24 is a thermoplastic polymer like polyethylene. As such, the planar surface 20 and support members 22 are able to flex when a force is applied to them. Support members 22 include sidewalls 24 that are preferably made of the same flexible plastic material as the planar surface 20, and are integral with the planar surface 20.
Each of the support members 22 includes at least one opening 26, formed in sidewall 24, and that defines an air passage within the insert 18 to allow air to flow through the support member 22.
Preferably, the support members 22 have a shape that is generally frustoconical with the base 28 of the cone disposed on the planar surface 20, and the smaller end 30 of the cone being away from the planar surface 20. A second opening 32 is preferably located in the smaller end 30
At the base 28 of each support member 22 is a surface opening 34 in the planar surface 20 that allows air to flow into the hollow support members 22 from the underside 36 of the planar surface 20. Surface opening 34 is generally positioned within support members 22. Foam member 19 includes openings 38 which align with surface openings 34 in planar surface 20.
Support members 122 include sidewalls 124 that are preferably made of the same flexible plastic material as the planar surface 120, and are integral with the planar surface 120. Each of the support members 122 includes at least one opening 126 that define air passages within the insert 118 to allow air to flow through the support members 122.
Preferably, the support members 122 have a shape that is generally frustoconical with the sidewalls 124 being of a convex shape. The base 128 of the cone is disposed on the planar surface 120, and the smaller end 130 of the cone being away from the planar surface 120. A second opening 132 is preferably located in the smaller end 130. However, support member 122 may have a convex shape without departing from the spirit of the present invention.
At the base 128 of the support members 122 is a surface opening 134 in the planar surface 120 that allows air to flow into the hollow support members 122 from the underside 136 of the planar surface 120. Foam member 119 also includes openings (not shown) which align with surface openings 134 to allow air to flow therethrough.
Support members 222 include sidewalls 224 that are preferably made of the same flexible plastic material as the planar surface 220, and are integral with the planar surface 220. Each of the support members 222 includes at least one opening 226 that define air passages within the insert 218 to allow air to flow through the support members 222.
Preferably, the support members 222 have a shape that is generally frustoconical. Sidewalls 224 of insert 218 preferably are made of one or more tiers 225a, 225b and 225c that are of progressively smaller diameter. The base 228 of the cone is disposed on the planar surface 220, and the smaller end 230 of the cone being away from the planar surface 220. A second opening 232 is preferably located in the smaller end 230. However, support member 222 may have a convex shape without departing from the spirit of the present invention.
At the base 228 of the support members 222 is a surface opening 234 in the planar surface 220 that allows air to flow into the hollow support members 222 from the underside 236 of the planar surface 220. Foam member 219 also includes openings (not shown) that align with surface openings 234 to allow air to flow through insert 218.
The use of the preferred embodiments of the present invention is described in relation to helmet 4 is illustrated in
Shock absorbing structure 10 preferably includes one of the inserts 18, 118 and 218 illustrated in
As seen in
As should be apparent from the above description, the present invention may be utilized in other protective equipment such as shin pads, knee pads, elbow pad, shoulder pads and chest protectors for example. In these other devices, the foam base 12 is molded to be complementary to the shape of the area of the protective device that needs to absorb shocks. The base is then formed with one or more recesses therein and the shock absorbing and cooling inserts are then fitted into the recesses
In summary, the present invention is a product used to replace foams or other impact absorption devices currently used in various applications such as helmets (sports or otherwise), protective padding, etc. The shock absorbing structure of the present invention allows air to flow freely through it, thus assisting in keeping the wearer of the protective device cool. With its open structure, warm air can be dissipated through the structure and directed away from the body. The shock absorbing structure of the present invention can be manufactured at or less than the same weight, thickness and cost of existing shock absorbing structures made of expanded polystyrene (EPS) or expanded polypropylene (EPP).
In the foregoing description, certain terms have been used for brevity, clearness, and understanding. No unnecessary limitations are to be implied therefrom beyond the requirement of the prior art because such terms are used for descriptive purposes and are intended to be broadly construed.
Moreover, the description and illustration of the invention is an example and the invention is not limited to the exact details shown or described.
This is a standard utility application claiming priority from U.S. Provisional Application Ser. No. 60/616,386, filed Oct. 6, 2004, the entire specification of which is incorporated herein by reference.
Number | Date | Country | |
---|---|---|---|
60616386 | Oct 2004 | US |