SAFETY HELMET CAPABLE OF ABSORBING MULTI-DIRECTION IMPACT
A safety helmet includes a shell, a flexible frame attached to the shell from inside, and a slide-facilitating member attached to the flexible frame from inside. In virtue of the slide-facilitating member, the shell when receiving incoming impact can slide with respect to a head of a user wearing it, so that the safety helmet can absorb and convert energy of the incoming impact force into other forms of energy, thereby enhancing protection to the user's head.
This application is a continuation of U.S. patent application Ser. No. 16/023,832, filed Jun. 29, 2018, and this application claims priority of Application No. 107120239 filed in Taiwan on Jun. 12, 2018 under 35 U.S.C. § 119; which are incorporated by reference herein in their entirety.
BACKGROUND OF THE INVENTION 1. Technical FieldThe present invention relates to safety helmets, and more particularly to a safety helmet that absorbs impact from multiple directions.
2. Description of Related ArtMost existing safety helmets are formed by a rigid casing and a buffer layer filled under the rigidity casing. When impact acts on such a known safety helmet, the rigidity casing first bears a part of the impact energy, and the buffer layer later absorbs a part of the energy. The remaining energy has to be borne by the user's head and cervical vertebra. For safety helmets, incoming impact can be divided into three types, namely radial impact, tangential impact, and diagonal impact. Radial impact can cause linear acceleration of a user's head that may lead to skull fracture and/or traumatic brain injury. Tangential impact can cause angular acceleration of a user's head that may bring about shear-based injury to brain and/or cervical vertebra. However, according to statistics, there have been seldom cases about pure radial or tangential impact. The most common type of injury is damage caused by diagonal impact, which is a combination of the two foregoing types of impact. When being subject to diagonal impact, a human head can have linear acceleration and slew acceleration at the same time, making it more vulnerable to grievous injury, such as cerebral concussion, traumatic brain injury (TBI), subdural hematoma (SDH) and diffuse axonal injury (DAI).
For ensuring protective capability of safety helmets, the relevant manufactures usually test their helmet products for impact absorption before shipment. Nevertheless, since these tests are usually designed for radial impact, the existing safety helmets may be good at absorbing radial impact, but are likely to fail to protect their user from impact acting in different directions (especially diagonal impact).
BRIEF SUMMARY OF THE INVENTIONThe primary objective of the present invention is to provide a safety helmet that absorbs multi-direction and thereby provides improved protection to its user's head.
To achieve the foregoing objective, the disclosed safety helmet comprises a shell, a flexible frame, and a slide-facilitating member. The flexible frame is attached to the inner surface of the shell, and the slide-facilitating member is attached to the inner surface of the flexible frame. Therein, the flexible frame supports the shell, while retaining the slide-facilitating member, so that the slide-facilitating member can fittingly and comfortably embrace a user's head. The slide-facilitating member facilitates slide of the shell. Thereby, when the shell receives incoming impact, especially diagonal impact, the slide-facilitating member allows the shell to slide with respect to the user's head. In this way, the impact force otherwise acting on the user's head can be absorbed and converted into other forms of energy, thereby providing better protection to the user's head.
Preferably, the foregoing slide-facilitating member has a slide-facilitating medium. The slide-facilitating medium may be realized in various aspects. For example, the slide-facilitating medium may be a fluid such as gas or liquid. Alternatively, it may be a plurality of freely rolling beads. Alternatively, the slide-facilitating medium may be two aligned substrates that abut against each other with a low-friction surface so as to have relative displacement therebetween. Alternatively, the slide-facilitating medium may be two aligned magnets facing each other with magnetic poles having the same polarity, so that the two magnets can easily have relative displacement due to magnetic repulsion. Alternatively, the slide-facilitating medium may be two aligned substrates and a plurality of flexible threads arranged therebetween. These flexible threads allow the two substrates to perform relative displacement. Alternatively, the slide-facilitating medium may be a plate made of a viscoelastic material. The plate has a plurality of recesses and a plurality of tongues, which are arranged next to each other alternately, so that the plate can use its own elasticity to allow such slide. Alternatively, the slide-facilitating medium has a substrate and a plurality of flexible bars connected to the substrates. The flexible bars have deforming property that allows such slide.
More information about the configuration, features, fabrication and uses of the safety helmet of the present invention will be provided in the following description in detail. However, people skilled in the art shall appreciate that the detailed description and embodiments as well as aspects are for illustration only, and by no means intended to limit the scope of the present invention.
This is to be first emphasized herein that like elements or features will be identified by identical numbers throughout all figures.
Referring to
The shell 20 has a casing 21 and a buffer layer 22. The buffer layer 22 is adhered to the inner surface of the casing 21 using an adhesive. The casing 21 is made of a rigid material, such as hard plastic, and serves to provide first-line protection. The buffer layer 22 is made of a shock-absorbing material, such as foam, for damping shock and buffering.
The flexible frame 30 is made of an elastic material, such as elastic plastic. As shown in
The slide-facilitating member 40 has a covering 41, which is made of a low-friction material, such as flannel. The covering 41 has one side adhered to the inner surface of the flexible frame 30 through fasteners (not shown) such as velcro tapes, so that the slide-facilitating member 40 can be retained by the flexible frame 30 to have the reverse side of the covering 41 contact a user's head 12 directly. In this way, the covering 41 can be easily detached for convenient cleaning when staining. The slide-facilitating member 40 further has a slide-facilitating medium 42 wrapped by the covering 41. In the present embodiment, the slide-facilitating medium 42 has a first and second substrates 43 and a plurality of flexible threads 44, and the first and second substrates 43 face each other and the plurality of flexible threads 44 are arranged between the first and second substrates 43. The first and second substrates 43 are fixed to the covering 41 by means of an adhesive. The flexible threads 44 are arranged between the first and second substrates 43 regularly or irregularly. With the presence of these flexible threads 44, the two substrates 43 can perform relative displacement easily. It is to be also noted that, the slide-facilitating member 40 shown in
With the foregoing configuration, when the shell 20 is subject to incoming impact, the casing 21 of the shell 20 bears part of the energy, and the buffer layer 22 of the shell 20 absorbs a part of energy. Then when the remaining energy is transmitted to the slide-facilitating member 40, as shown in
It is further to be noted that the slide-facilitating medium 42 may be embodied in various forms. For example, as shown in
Claims
1. A safety helmet, comprising:
- a shell;
- a flexible frame, being attached to an inner surface of the shell; and
- a slide-facilitating medium, being attached to an inner surface of the flexible frame, having a first substrate and a plurality of flexible members connected to the substrate, and serving to allow the shell to slide with respect to a user's head wearing it when the shell receives incoming impact.
2. The safety helmet of claim 1, wherein the slide-facilitating medium has a second substrate; the first and second substrates face each other and the plurality of flexible members are arranged between the first and second substrates.
3. The safety helmet of claim 2, wherein the plurality of flexible members of the slide-facilitating medium each are a thread.
4. The safety helmet of claim 1, wherein the slide-facilitating medium is a plate made of a viscoelastic material, and the plurality of flexible members each have a plurality of recesses and a plurality of tongues, in which the recesses and the tongues are arranged next to each other alternately.
5. The safety helmet of claim 1, wherein the plurality of flexible members of the slide-facilitating medium each are a bar.
6. The safety helmet of claim 1, further comprising a covering; wherein the covering is attached to the inner surface of the flexible frame and the slide-facilitating medium is wrapped by the covering.
7. The safety helmet of claim 1, wherein the shell has a casing and a buffer layer, in which the buffer layer has an outer surface thereof attached to an inner face of the casing, and the flexible frame is attached to an inner surface of the buffer layer, and the flexible frame is also detachable.
8. The safety helmet of claim 7, wherein the flexible frame is attached to the inner surface of the buffer layer through a fastener.
9. The safety helmet of claim 8, wherein the flexible frame has two symmetrical top ribs and a side rib, in which the two top ribs each have a front end thereof integratedly connected to a front end of the side rib, and the side rib has a rear end thereof provided with an adjuster that is used to adjust a circumference defined by the side rib.
10. The safety helmet of claim 7, wherein the inner surface of the buffer layer has a plurality of mortise and an outer surface of the flexible frame has a plurality of tenons, so that the tenons of the flexible frame engage with the mortises of the buffer layer, respectively.
11. The safety helmet of claim 10, wherein the flexible frame has two symmetrical top ribs and a side rib, in which the two top ribs each have a front end thereof integratedly connected to a front end of the side rib, and the side rib has a rear end thereof provided with an adjuster that is used to adjust a circumference defined by the side rib.
Type: Application
Filed: Mar 4, 2020
Publication Date: Jun 25, 2020
Inventor: Gavin Michael VOS (TAICHUNG CITY)
Application Number: 16/808,855