Method for manufacturing safety helmet and safety helmet manufactured with the same
An improved lightweight, shock-resistant and tension-proof safety helmet manufactured at a low cost is provided. The safety helmet includes a shell, which is manufactured by molding a liner using a thermoplastic resin, covering the outside of the liner with a reinforced fiber sheet, preparing a mold, disposing the liner upside down on a concave molding side of the mold, injecting a thermosetting resin between the liner and the molding side, hardening the thermosetting resin, and detaching the hardened thermosetting resin from the mold; and a cushion pad attached to the inside of the liner. The safety helmet may include a guide surface referred to as a wind flap in order to guide external air into the safety helmet.
The present invention relates to a method of manufacturing a safety helmet, such as a motorcycle helmet or a sports helmet, and a safety helmet manufactured using the method, and more particularly, to a method of easily manufacturing a safety helmet with a shell, which is made of a fiber-reinforced composite material including high-strength fiber, high elastic fiber, and a thermosetting resin, to be light and shock resistant at a low cost, and an improved safety helmet with excellent inner ventilation.
BACKGROUND ART Safety helmets are used to protect human heads from being injured due to sudden accidents that occur when people drive motorcycles or racing cars or work in construction sites or special work sites.
Referring to
In a conventional method of manufacturing the shell 11, an external mold having a molding side for forming the external shape of the shell 11 and an internal mold having a molding side for forming the internal shape of the shell 11 are disposed such that the molding sides face each other, and a fiber-reinforced composite material is injected between the molding sides and then hardened. However, this method requires a lot of expenses to manufacture the molds. Moreover, when heat is applied to the molds in order to harden the fiber-reinforced composite material, the heat is not uniformly transmitted through the molds, so there is a large difference in strength throughout the shell 11.
In another conventional method of manufacturing the shell 11, a molding side of an external mold for forming the external shape of the shell 11 is coated with a fiber-reinforced composite material, and then the fiber-reinforced composite material is rapidly hardened by blowing compressed air and a thermosetting resin on the external mold. However, this method is disadvantageous in that the thickness of the shell 11 is not uniform.
As indicated by a dashed and two dotted line in
The present invention provides a method of manufacturing an improved light, shock-resistant and tension-proof safety helmet at a low cost.
The present invention also provide a safety helmet which reduces unpleasantness by preventing a user's head from becoming clammy with sweat and eliminates bad sanitary conditions.
According to an aspect of the present invention, there is provided a method of manufacturing a safety helmet. The method includes molding a liner, which has an inner space and an opening at its lower portion in order to allow a user's head to be put into the safety helmet, using a thermoplastic resin; covering the outside of the liner with a reinforced fiber sheet formed using a textile or a non-woven fabric made of high-strength fiber and high elastic fiber; preparing a mold having a concave molding side and disposing the liner in the mold upside down such that the reinforced fiber sheet is positioned between the molding side and the liner; injecting a thermosetting resin between the liner and the molding side and hardening the thermosetting resin; and detaching the hardened thermosetting resin from the mold.
According to another aspect of the present invention, there is provided a safety helmet including a shell, which is manufactured by a method including molding a liner, which has an inner space and an opening at its lower portion in order to allow a user's head to be put into the safety helmet, using a thermoplastic resin; covering the outside of the liner with a reinforced fiber sheet formed using a textile or a non-woven fabric made of high-strength fiber and high elastic fiber; preparing a mold having a concave molding side and disposing the liner in the mold upside down such that the reinforced fiber sheet is positioned between the molding side and the liner; injecting a thermosetting resin between the liner and the molding side and hardening the thermosetting resin; and detaching the hardened thermosetting resin from the mold; and a cushion pad, which is attached to the inside of the liner in order to alleviate external shock to the user's head.
Preferably, the cushion pad includes a plurality of head supports which extend toward the inner space and contact the user's head.
Preferably, the safety helmet further includes a guide surface having a slant declining forward from a back rim of the opening, in order to guide air flow near the opening into the cushion pad.
BRIEF DESCRIPTION OF THE DRAWINGS
Referring to
Since it is preferable that the liner 110 has a thickness of 1-2 mm, the liner 110 is made of a thermoplastic resin through molding. Such a molding method is widely known to those skilled in the art, and thus a description thereof will be omitted. The thermoplastic resin for the liner 110 may be a resin such as polyethylene resin, polystyrene resin, polybutyleneterephthalate resin, polyvinylchloride (PVC) resin, polymethylmethacrylate (PMMA) resin, acrylonitrile-butadiene-styrene (ABS) resin, polycarbonate resin, or nylon resin.
The reinforced fiber sheet 113 is formed using a textile or a non-woven fabric made of high-strength fiber and high elastic fiber. The reinforced fiber sheet 113 may have a single-layer structure but may have a multi-layer structure in order to increase the strength of a shell (120 in
Next, in order to mold the shell of a safety helmet, as shown in
Next, a thermosetting resin 117 is injected between the liner 110 and the molding side 200a of the mold 200 and then hardened. The thermosetting resin 117 may be an unsaturated polyester resin, an epoxy resin, or a phenol resin. As shown in
Next, the hardened thermosetting resin 117 is detached from the mold 200. By separating the mold 200 into the mold pieces before being combined with each other, the hardened thermosetting resin 117 is detached from the mold 200 without damage to the shape thereof. The hardened thermosetting resin 117, the reinforced fiber sheet 113 disposed within the hardened thermosetting resin 117, and the liner 110 combined with the concavely shaped inner portion of the thermosetting resin 117 constitute the shell of a safety helmet (100 in
The cushion pad 130 attached to the inside of the liner 110 is usually made of a material such as Styrofoam in order to alleviate the external shock to a user's head and to provide comfort, but the present invention is not restricted thereto. The cushion pad 130 includes a plurality of head supports 131, which extend toward the inner space of the safety helmet 100 and thus contact the user's head denoted by a dashed and two dotted line in
The safety helmet 100 includes a guide surface 160 formed at the back rim of an opening 150, which is provided to receive the user's head, to have a slant declining forward. The guide surface 160 is referred to as a wind flap and guides air flow near the opening 150 to the inside of the cushion pad 130. The guide surface 160 shown in
When a user wearing the safety helmet 100 drives a motorcycle, the air flows from the front to the back of the safety helmet 100, that is, the air flows from the left to the right in
A method of manufacturing a safety helmet according to the present invention allows the manufacturing cost of a mold necessary for producing safety helmets to be cut off so that safety helmets having various shapes and standards can be manufactured using a fiber-reinforced composite material at a low cost.
In addition, since a reinforced fiber sheet is contained within a thermosetting resin, harmful dust is prevented from being produced when cutting the reinforced fiber sheet during a finishing process such as polishing, thereby improving the working environment in a safety helmet factory.
A safety helmet of the present invention is lighter and has better shock-resistance and tension-proof than a conventional safety helmet made of a fiber-reinforced composite material.
Moreover, a safety helmet of the present invention allows external air to smoothly flow therein and thus prevents a user's head from becoming clammy with sweat. As a result, the user can feel pleasant and can be under good conditions in terms of sanitation. In particular, in the case of a safety helmet for a motorcycle, since a windshield is prevented from steaming up, a user wearing the safety helmet can safely drive a motorcycle. In addition, the user can drive without being disturbed by loud wind sounds caused by ventilation holes used for the inflow of air in conventional technology.
While this invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
INDUSTRIAL APPLICABILITYThe present invention can be applied to safety helmets for protecting users' head while the users are driving motorcycles or racing cars or doing high-contact sports.
Claims
1. A method of manufacturing a safety helmet, the method comprising:
- molding a liner, which has an inner space and an opening at its lower portion in order to allow a user's head to be put into the safety helmet, using a thermoplastic resin;
- covering the outside of the liner with a reinforced fiber sheet formed using a textile or a non-woven fabric made of high-strength fiber and high elastic fiber;
- preparing a mold having a concave molding side and disposing the liner in the mold upside down such that the reinforced fiber sheet is positioned between the molding side and the liner;
- injecting a thermosetting resin between the liner and the molding side and hardening the thermosetting resin; and
- detaching the hardened thermosetting resin from the mold.
2. A safety helmet comprising:
- a shell, which is manufactured by a method comprising molding a liner, which has an inner space and an opening at its lower portion in order to allow a user's head to be put into the safety helmet, using a thermoplastic resin; covering the outside of the liner with a reinforced fiber sheet formed using a textile or a non-woven fabric made of high-strength fiber and high elastic fiber; preparing a mold having a concave molding side and disposing the liner in the mold upside down such that the reinforced fiber sheet is positioned between the molding side and the liner; injecting a thermosetting resin between the liner and the molding side and hardening the thermosetting resin; and detaching the hardened thermosetting resin from the mold; and
- a cushion pad, which is attached to the inside of the liner in order to alleviate external shock to the user's head.
3. The safety helmet of claim 2, wherein the cushion pad comprises a plurality of head supports which extend toward the inner space and contact the user's head.
4. The safety helmet of claim 3, further comprising a guide surface having a slant declining forward from a back rim of the opening, in order to guide air flow near the opening into the cushion pad.
Type: Application
Filed: Jan 9, 2003
Publication Date: Jul 27, 2006
Inventor: Dong Lee (Incheon-city)
Application Number: 10/541,014
International Classification: A42B 3/00 (20060101);