JPH11512496A - headgear - Google Patents

Abstract

(57) [Summary] The headgear consists of an outer protective shell (12), a channel (54) passing through the helmet (10) inside the shell (12), and an integrated fitting (18) on the ceiling of the channel (54). ) Having a helmet (10). The mounting (18) has three or four mirrors (23, 26, 40) made of plastic and metallized on the surface through the channel (54). The fitting (18) is attached to the shell (12) or channel (54). The mirrors (23, 26, 40) and the channel (54) provide the helmet wearer with visibility through the channel (54). The first mirror (23) is parabolically concave and the last mirror (40) is parabolically concave.

Description

DETAILED DESCRIPTION OF THE INVENTION                                headgear   The present invention relates to headgear.   US Pat. No. 3,978,526 states that the top of a motorcycle helmet is With a channel-like motorcycle helmet accessory It is described to be provided. This channel has three plane mirrors inside, So that the wearer of the kit can look into the channel and look backward through the mirror. Is attached. These mirrors are separately affixed to the surface of the channel.   According to the configuration of the present invention, the outer protective shell, penetrate the helmet inside the shell Includes channel and integrated ceiling mount for channel ceiling mounted on shell A helmet is provided. This fixture faces the channel from the fixture. The helmet wearer has at least one mirror with one or more mirrors. Can be seen through the channel.   If this vision system is provided inside the helmet shell rather than outside That said, it greatly enhances the safety of the helmet. The mirror is an integral fixture Mounting or forming on top simplifies the construction of the fixture and at the same time This makes it easy to assemble the attachment together with the mirror into the helmet. Installation The fact that the helmet is provided inside the helmet also means that the helmet is made lightweight. The helmet of the present invention can be significantly lighter than known helmets .   In any event, a portion of the fitting extends from one of the inner surfaces of the shell to the other. this In this way the fixtures are easily fixedly positioned and, if desired, the strength of the shell Can also be raised. Side positioning means provided between shell and mounting Can be The side positioning means includes a rib, a shell, Means for defining a groove for receiving a rib on the other side of the fixture.   It is preferable to have multiple mirrors. Using an odd number of mirrors gives an image of the correct relationship with the surroundings. Can be   According to another aspect of the present invention, a channel having a channel therethrough and a fitting. Gear products are provided. This fixture has multiple mirrors and is located above the channel The mirror is positioned facing the channel from the fixture. The mirror and channel are like this System that allows the wearer of this product to look backwards through the channel. Form part of the system.   The channel may take any suitable shape, but is preferably The fitting is attached to the channel so as to straddle this groove. The mounting fixture is It has a tongue-and-groove section at the top of the wall. This product has a protective shell. With lumet, the fittings are located inside the shell.   Preferably, the upper surface of the fixture follows the general shape of the shell. Installation The brace is thus fitted snugly inside the shell. Fitting lower table The surface preferably follows the general shape of the shell. Fittings also improve safety In order to improve, it follows the shape of the wearer's head in this way. The channel can be one or the other Open at both ends, but the shell should have a transparent window material facing the end of the channel. preferable. The transparent window material can be a separate part, or on the contrary good. The thickness of the fixture is approximately constant. This reduces material requirements And thus facilitate the weight of the fixture when making the mold from the resin. Installation The brace advantageously has a plurality of substantially planar surfaces. The channel is at least partially The inside of the helmet is defined by a cushioning material, such as foam, which runs along the channel Locally increase the elasticity.   The mirror may be of any suitable type and may be electron-evaporated on the surface of the fixture. Installation The fixture should be made of ABS or a resin material that is a mixture of ABS and polycarbonate. The evaporative material is a metal, for example chromium.   The channel is separated by another cushion at least on the front of the product. This is bigger Gives a high energy absorption effect. Compressed air against the mirror to clean the mirror A gap is provided in the buffer near the at least one mirror for spraying.   The optical element constituted by the mirror may be of any shape, but at least one mirror Is a parabolic curved surface. The mirror seen by the wearer is parabolic Is preferably a concave surface.   According to another aspect of the present invention, the book is made so that the wearer can see behind him. Head having a plurality of optical elements arranged continuously from the front to the rear of the article This product of gear is provided. And at least one optical element is a parabolic curved surface It is.   The first optical element that the wearer looks into during use is a parabolically concave surface and the wearer's eye It is preferable to focus on The first element is a parabolically concave mirror . This reduces the spread of light rays in the light path, thus reducing the size of the channel. I can do it. The last optical element is a parabolic convex mirror. This is parabolically concave Increase the spread of the rays to complement the first mirror of the and / or Spread out. This product has a helmet with an outer protective shell, two optics Line of sight passes through the window in the shell, and each optic behind the window is removable from the shell Noh is attached to Noh.   In fact, according to another configuration of the invention, having a helmet with an outer protective shell A headgear product and a plurality of optical elements that provide the wearer's rear view are provided. The wearer's line of sight between the optics passes through the helmet shell window and Each optical element is detachably attached to the shell.   Each optic behind the window is mechanically attached to the shell in a snap-off fashion You.   Embodiments of the present invention are described below with reference to exemplary methods and accompanying figures. This Here:   FIG. 1 is a side sectional view of a helmet according to a first embodiment of the present invention.   FIG. 2 is a detailed rear view of the helmet of FIG.   FIG. 3 is a side sectional view of a helmet according to a second embodiment of the present invention.   FIG. 4 is an exploded perspective view of the helmet of FIG.   The helmet 10 of the embodiment has an outer shell 12 and a shell made of a tough resin material. 12 has a soft internal foam layer 14 inside. The liner 16 made of cloth is Shown on the inside surface. A piece of fitting 18 is provided on the ceiling of the shell 12, It is made of ABS or a resin mixture of ABS and polycarbonate. Fitting 18 has four flat portions and one slightly convex end-to-end connected in series. Consists of parts. The first plane 20 is an external shell extending above the wearer's field of view. And is positioned in close contact with the planar extension 21 of the nozzle 12. The inside surface of the first plane 20 is a mirror surface Electrodeposited with chromium to form 23. The second plane 22 is the shell 12 At its end and connected to the third plane 24 at its end, the inner surface of which Is metallized by electron vapor deposition to form a mirror surface 26. The rib 28 is connected to the third plane 24 and the fourth It extends above the shell 12 from the connection with the plane 30 and has a relatively short length. . The next rib 32 is connected to a fourth surface 34 extending to the rear of the helmet. It extends from the other end of the plane 30. A single transverse rib 36 parallel to ribs 28 and 32 It extends from the convex surface 34 to the center. Convex surface 34 also has a mirror surface 40 on its inside . The flange 42 extends from the inner surface of the helmet 12, and the rear end of the convex surface 34 is a flange. 42. The extension 21 and the flange 42 shell the attachment 18 12 helps in longitudinal mounting. After the rib 36, as shown in FIG. There are further provided three ribs 44, 46, which are located in the longitudinal plane. Central The ribs 44 extend to the inner surface of the shell 12 while the two outer ribs 46 It extends from the provided boss 48 and is provided on the boss 52 on the inner surface of the shell 12. It is received in the groove 50. The channel 54 having a rectangular cross section is provided with the fitting 18 and the foam material. 14 and towards the transparent window 56 of the shell 12.   The window 56 is a weak point, so that the window from the shell 18 on the radial surface of the helmet Additional extending beyond the floor of channel 54 toward a location that intersects the upper end of 56 A flange 58 is provided.   In use, the wearer looks at the mirror surface To the rear of the helmet through the middle window 56, the outside can be seen. Taking The fastener 18 can be injection molded, the electron deposition areas are connected by thin lines, and thus three Since the mirror surfaces 23, 26, and 40 are all vapor-deposited simultaneously, manufacturing is easy. set The first part 20 hits the extension 21 of the helmet shell 12 , The rear part 34 of the fixture 18 hits the flange 42, and the ribs 44, 46 Until it is inserted into the boss groove 50 for positioning and can be glued in place , Simply slide the mirrored fixture 18 into the channel.   The fixture 18 shown is very lightweight. Or reinforce the helmet For example, the fitting 18 can be reinforced with thicker or stronger materials, for example. You. A compromise between strength and weight can obviously be decided as desired.   A section 58 of the foam material 14 near the channel 56 is created by the channel. Flexibility has been added to fill the gap.   In another embodiment, the ribs 28, 32, 36 are not provided.   In yet another embodiment, channel 5 may be used to protect mirrors 23, 26, 40. 4 is sealed and filled with a drying gas or evacuated. In this case, channel 5 The foam material 14 on the floor surface 4 is covered, and the front surface of the channel 54 is sealed with another transparent window 56. Is done.   In yet another embodiment, the integrated fixture 18 has a fourth mirror surface and a fifth mirror surface. Is provided on the floor of the channel 54, in the base portion behind the helmet 10, and the last The longitudinal circumference of the helmet so that the mirror faces outward below the lower end of the shell 12 It extends throughout the enclosure.   In another embodiment, a screen such as an LCD screen is used for channel 54. And provide information to the wearer.   The second embodiment shown in FIGS. 3 and 4 is similar to the first embodiment, and The same reference numbers are used. Only parts different from the first embodiment will be described.   The fixture 18 of the second embodiment has five cells similarly to the fixture 18 of the first embodiment. Sections 20, 22, 24, 30, and 34, but the first section 20 is separated. And has an outwardly projecting hemispherical projection 60, which is in the second section. Click into the hemispherical recess 62 in the two arms 64 attached to the front end of the Be killed. In this way, the angle of the first section 20 is adjusted by pivoting it. The first section 20 can be adjusted to a desired angle by friction between the parts 20 and 64. Can be adjusted. The mirror surface 23 of the first section 20 has a parabolic shape and is concave. is there.   The mirror surface 26 of the third section 24 is flat. The mirror surface of the fifth section 34 is free. This is a convex surface in the shape of the object surface.   The mounting ribs 28, 32, 36, 42, 44, 46 and the phos 48, 52 The entire attachment 18 is not included because it is substantially the same circumference as the wearer's head. second In the embodiment, the channel 54 has both depth and width due to the shape of the mirror surfaces 23, 26, and 40. Can be quite small. The fitting 18 has a wider channel than the channel 54. 54 is housed in a tongue-and-groove 66 at the upper end thereof, and the adhesive 14 Adhered to. A black backing 68 is added to the channel 54 to suppress extra reflection. It is used in addition.   Window 56 is made of a very strong transparent material, such as polycarbonate, It has a wide mounting flange throughout, and the mounting flange As a result, the window 56 can be bonded to the shell 12. The window 56 is 3m thick m polycarbonate.   In use, the wearer of the helmet 10 looks into the first mirror surface 23 as before. And the reflection from the first, second and third mirror surfaces 26 and 40 allows the wearer to You can see what Angle of first section 20 with first mirror surface 23 Hands to suit different wearer's eyes and different riding positions. Can be adjusted.   The fact that the first and last mirror surfaces 23 and 40 are parabolically curved is The size of the panel 54 and the size of the window 56 are significantly reduced compared to the configuration using a plane mirror. It is intended to be reduced. In fact, by using the parabolic mirror of the present invention, The width of the final mirror 40 and window 56 has been reduced by 29% relative to the field. This major improvement is Larger foam material can be used inside the helmet of the same external dimensions, resulting in Better energy absorption, leading to a correspondingly greater improvement in safety Good. Also, compared to a regular helmet without a rear view system, There is also a decorative advantage in that the size of the met is made compact.   The method of attaching the attachment 18 is very simple, and the attachment 18 is continuous. It only has two parts with plate-like parts. These are, for example, ABS and Mixture of ABS and polycarbonate or glass reinforced resin, especially glass filling Very easy to manufacture by injection molding from a suitable resin material such as a synthetic material such as reinforced nylon. Can be built.   In an alternative embodiment, the entire outer shell 12 is made of clear polycarbonate. According to this method, in this case, the window 56 which is merely a part of the transparent shell 12 is formed. There is no need to attach. The shell 12 may remain transparent or You may paint except part.   The light paths for each eye of the wearer partially overlap each other through channel 54. I'm in love. Channel 54 has a single opening in front of the helmet for added strength. Instead of a discharge channel, the foam 14 forms a dividing wall in front of the channel 54. As shown in FIG. This does not disturb the light path, Does not affect the wearer's field of view. Dividing walls are maximized by maximizing their size. A wide triangle is used on the front surface to obtain appropriate strength. The dividing wall is strong and / or Or use different densities to increase the energy absorption of the impact in that area Good.   In the channel 54 facing each of the mirror surfaces 23, 26 and 40, A gap is provided through the base cloth. This makes it possible to use a compressed air aerosol can Can be cleaned. Air is blown through each gap to each mirror in turn.   In yet another embodiment, the first two mirrors 23, 26 reflect at a very shallow angle. , Window 56 is on top of helmet 10 and third mirror 40 is outside of helmet 10 Side, held on top of shell 12 with a weak snap-off mechanical locking scheme Installed in the form of a separate section. This means that the helmet shell 12 The size of the provided window 56 is greatly reduced. Additional outside the helmet shell Using sections is not desirable from a security point of view, but Creating a nap-off section minimizes that danger, Lumet is convinced that he still passes the necessary safety standards.   The adjustable mirror of the second embodiment can be replaced with the fixed mirror of the first embodiment if desired. Can be.   The position of the mirror provides a dedicated helmet for different types of riding style Can be changed to In this way, the competition motor that rides leaning forward in the prone position Helmets with special mirror positions for cycle riders are also conceivable. Tailored A special helmet is also made for riders riding on the motorcycle it can.   In yet another embodiment, mounting fixture 18 may be held in consideration of changes in rider position. It is movable within the met 10.   An air hole is provided in the foam material to communicate with the channel 54 to supply cool air to the head. , Alternatively, defrost may be provided to the mirror surfaces 23, 26, 40 to remove condensation.   The helmet described above is intended for motorcycle drivers. But the same helmet with the same field of view system, especially for cyclists Helmet, driving helmet, motor racing helmet, police helmet, Firefighter helmet, military helmet pilot helmet, space helmet, cheap Used as a full helmet or security helmet.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), OA (BF, BJ, CF) , CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (KE, LS, MW, SD, S Z, UG), UA (AM, AZ, BY, KG, KZ, MD , RU, TJ, TM), AL, AM, AT, AU, AZ , BA, BB, BG, BR, BY, CA, CH, CN, CU, CZ, DE, DK, EE, ES, FI, GB, G E, HU, IL, IS, JP, KE, KG, KP, KR , KZ, LC, LK, LR, LS, LT, LU, LV, MD, MG, MK, MN, MW, MX, NO, NZ, P L, PT, RO, RU, SD, SE, SG, SI, SK , TJ, TM, TR, TT, UA, UG, US, UZ, VN

Claims (1)

[Claims] 1. A through-channel and a fixture, which mounts a plurality of mirrors. Having a mirror facing the interior of the channel from the fixture and located at the top of the channel The mirror and channel are positioned through the channel to the wearer of the product Defining and configuring a part of the system that makes it possible to see Headgear products 2. The channel is a groove that opens upward, and the fixture is 2. The headgear according to claim 1, wherein the headgear is mounted on a channel. A product 3. The fittings should include a tongue-and-groove section at the top of the groove wall. 3. The headgear product according to claim 2, 4. Claims characterized in that the product is a helmet with a protective shell 4. The headgear product according to claim 1, 2, or 3. 5. The fitting is arranged to lie inside the shell The headgear product according to claim 4. 6. An outer protective shell, and a channel through the helmet inside the shell, Integrated fittings mounted on the shell and at the ceiling of the channel. The fixture has at least one mirror pointing into the channel from the fixture. This mirror allows the helmet wearer to see through the channel A headgear product characterized by that: 7. At least part of the fitting extends from one of the inner surfaces of the shell to the other 7. The headgear product according to claim 6, wherein 8. That side positioning means are provided between the shell and the mounting. A headgear product according to claim 7 or claim 8, characterized in that: 9. Side positioning means include a rib on one of the shell and the mounting, Providing means for defining a groove for receiving a rib on the other side of the fixture. A headgear product according to claim 8, characterized in that: 10. 10. A method according to claim 6, wherein there are a plurality of mirrors. The listed headgear products 11. The lower surface of the fitting follows the general shape of the shell Headgear product according to any one of claims 4 to 10 12. The shell is characterized by including a transparent window material opposite the end of the channel. A headgear product according to any one of claims 4 to 11 13. 12. The twelfth aspect of the invention, wherein the transparent window element is part of a shell. Headgear products listed in section 14． The claim according to claim, wherein the fitting has a substantially constant thickness. Headgear products described in any of the boxes 15. The above claim, wherein the fitting has a plurality of substantially planar portions. Headgear products according to any of the ranges 16. The above claim, wherein the mirror is electro-deposited on the surface of the fixture. Headgear products according to any of the ranges 17． The above-mentioned claim, wherein the attachment is made of a resin material. Headgear products according to any of the above 18. The channel is at least partially defined by the cushioning material in the helmet A headgear product according to any of the preceding claims, characterized in that: 19. The cushioning material is characterized by increased elasticity locally along the channel 19. The headgear product according to claim 18, wherein 20. The channel is separated at least in front of the product by another buffer material 20. A headgear product according to claim 18 or claim 19, characterized in that: 21. Make sure that you can blow compressed air against the mirror to clean it. A gap is provided in the buffer material in the vicinity of at least one of the mirrors. 21. A headgear product according to claim 18, 19 or 20. 22. At least one optical element constituted by a mirror has a parabolic curved surface. Headgear product according to any of the preceding claims, characterized in that 23. The mirror which the wearer looks into is parabolically concave. Item 20. The headgear product according to item 20. 24. From the front of the product to the rear so that the wearer can see behind him. Thus, it has a plurality of optical elements arranged continuously, at least one optical element is A headgear product having a parabolic curved surface. 25. The optical element that the wearer looks into during use is parabolically concave. The headgear product according to claim 24, wherein 26. The optical element that the wearer looks into during use is a parabolic concave mirror. The headgear product according to claim 25, characterized in that: 27. The final optical element is a parabolically convex mirror. 27. A headgear product according to any of paragraphs 22 to 26 28. Claims having a helmet with an outer protective shell Item 28. A headgear product according to any of items 22 to 27 29. The line of sight between the two optics passes through the window in the shell and the optical Claims wherein the element is removably attached to the shell. Headgear product according to clause 28 30. The device has an outer protective shell and a plurality of optics to provide the wearer with a rear view. The line of sight between the two optics for the wearer passes through a window in the shell of the helmet Make sure that each optical element after the window is detachably attached to the shell. Features headgear products. 31. Each optic after the window is mechanically attached to the shell in a snap-off configuration. 31. A head carrier according to claim 29 or claim 30, wherein Product 32. Referring now to the accompanying drawings, FIGS. 1 and 2 or FIGS. Headgear product substantially equivalent to