The present invention generally relates to cold weather clothing and more particularly relates to a head garment having a removable face covering.
In cold weather environments it is often desirable to wear a head garment in order to keep the head and body warm. One problem with conventional head garments is that when the user is active and generating body heat, head garments may cause the user to overheat. An additional problem with conventional head garments that cover the face of the user, is that such face coverings frustrate the ability of the user be heard and understood when the user is attempting to speak, or perform other activities such as eating, drinking, etc.
Solutions to these problems have been proposed and some conventional head garments therefore have detachable masks that can be removed in order to allow excess heat to escape and to allow the user to effectively communicate. Such conventional solutions suffer from the ability of the detachable mask portion becoming lost, thereby extremely reducing the effectiveness of the head garment in cold weather.
Additionally, such conventional solutions suffer from the difficulty of aligning and attaching each of the fasteners that join the mask to the head garment while the user is wearing other cold weather gear, such as gloves. This problem has been addressed by replacing the mechanical fasteners (e.g., snaps and buttons) with magnets. However, any of these types of fasteners create the additional problem of cold air and wind reaching the face of the user between the gaps in the fasteners, which also significantly reduces the effectiveness of the head garment in cold weather.
Therefore, what is needed is a head garment that overcomes these significant problems found in the conventional head garments as described above.
To solve the problems described above, described herein is a head garment with a base section and a magnetically sealed face section that is both partially affixed to the base section and detachable from the base section. The head garment includes a base section that defines an internal opening for the face of the user, the internal opening having a perimeter with a lower edge and an upper edge. The perimeter of the internal opening has a first piping extending along at least a portion of the lower edge and defining a first elongated internal cavity. Inside the first elongated internal cavity is a first plurality of elongated magnets. Each magnet may have a length that is longer than the width of the first elongated internal cavity. Alternatively, the magnet length can be equal to or shorter than the width. The magnets in the first elongated internal cavity are arranged such that each magnet is magnetically attracted to each of its one or two adjacent magnets.
The head garment also has a face section with a perimeter edge having a lower edge and an upper edge. The perimeter of the face section has a second piping extending along at least a portion of the lower edge and defining a second elongated internal cavity. Inside the second elongated internal cavity is a second plurality of elongated magnets, each having a length that is longer than the width of the second elongated internal cavity. The magnets in the second elongated internal cavity are arranged such that each magnet is magnetically attracted to each of its one or two adjacent magnets.
The face section also having a portion of its perimeter edge affixed to a portion of the perimeter edge of the internal opening of the base section. The face section can be affixed by stitching or heat sealing or the like.
The magnets in the first and second piping are also arranged such that each magnet in the first piping is magnetically attracted to a corresponding magnet in the second piping. Accordingly, when the face section is brought into proximity with the base section, each magnet in the first piping magnetically attaches to its corresponding magnet in the second piping to magnetically seal the face section over the face of the user. When the user removes the mask by pulling apart the magnetic seal, the affixed portion of the perimeter edge retains the face section with the base section.
Other features and advantages of the present invention will become more readily apparent to those of ordinary skill in the art after reviewing the following detailed description and accompanying drawings.
The structure and operation of the present invention will be understood from a review of the following detailed description and the accompanying drawings in which like reference numerals refer to like parts and in which:
Certain embodiments disclosed herein provide for a head garment that includes a face section that can be magnetically attached to a base section to provide magnetically sealed protection of the user's face from the elements. The face section can alternatively be detached to allow the user's face to cool down and also allow the user to verbally communicate in an effective fashion. After reading this description it will become apparent to one skilled in the art how to implement the invention in various alternative embodiments and alternative applications. However, although various embodiments of the present invention will be described herein, it is understood that these embodiments are presented by way of example only, and not limitation. As such, this detailed description of various alternative embodiments should not be construed to limit the scope or breadth of the present invention as set forth in the appended claims.
The base section 20 has an internal base perimeter 60. The base perimeter 60 defines an enclosed face opening 40. The base perimeter 60 has an upper forehead portion and a lower chin portion. Attached to at least a lower portion of the base perimeter 60 is a base piping 80. In one embodiment, base piping 80 is attached to and extends along one or more segments of the lower portion of the base perimeter 60. Base piping 80 defines a base elongated cavity 82 (not shown). In one embodiment, where connection 50 (not shown) is situated near the chin of the user, there are two separate segments of base piping 80 that each extend along a lower portion of the base perimeter 60 and are separated by connection 50 (not shown). In an alternative embodiment, where connection 50 (not shown) is situated near one cheek of the user, there is a single segment of base piping 80 that extends along a lower portion of the base perimeter 60. The base section 20 may be made from any of a variety of materials including: fleece, fabric, neoprene, polymer, laminates and membranes such as rubber and elastomer, etc.
The face perimeter 70 is patterned to conform to the shape of the lower portion of the base perimeter 60 when the head garment 10 is worn by a user. The face section 30 includes a face perimeter 70, a portion of which is affixed to the base section 20, for example by connection 50 (not shown), which may be affixed by stitching, snaps, hook and loop, buttons, zippers and the like. The face perimeter 70 has an upper nose portion and a lower chin portion. When the face section 30 is magnetically sealed in place, an upper portion of the face perimeter 70 extends across the face of the user, for example across a first cheek and over the bridge of the nose and across a second cheek. The face section 30 may include a cut out 76 to accommodate the nose of the user and the face section 30 may also include one or more through holes 78 disposed over the mouth of the user when the face section 30 is magnetically sealed in place.
In one embodiment, face piping 90 is attached to and extends along at least a lower portion of the face perimeter 70. Face piping 90 defines a face elongated cavity 92 (not shown). In one embodiment, where connection 50 (not shown) is situated near the chin of the user, there are two separate segments of face piping 90 that each extend along a lower portion of the face perimeter 70 and are separated by connection 50 (not shown). In an alternative embodiment, where connection 50 (not shown) is situated near one cheek of the use, there is a single segment of face piping 70 that extends along a portion of the face lower perimeter 72. The face section 30 may be made from any of a variety of materials including: fleece, fabric, neoprene, polymer, plastic, laminates and membranes such as rubber and elastomer, etc.
In an alternative embodiment, a single magnet 100 is positioned in the base elongated cavity 82 defined by the base piping 80. Additionally, a single magnet 100 is positioned in the face elongated cavity 92 defined by the face piping 90. Accordingly, each single magnet 100 in the base elongated cavity 82 and the face elongated cavity 92 extends substantially from a first end of its respective cavity (82, 92) to a second end of its respective cavity (82, 92). Thus, the single magnet 100 positioned in the base elongated cavity 82 has a corresponding magnet 100 positioned in the face elongated cavity 92. Also, the single magnet 100 positioned in the base elongated cavity 82 has a north or south magnetic pole facing its corresponding magnet 100 positioned in the face elongated cavity 92, which in turn has an opposite north or south magnetic pole facing the corresponding magnet 100 positioned in the base elongated cavity 82. Accordingly, when the face section 30 is brought into proximity with the base section 20, the single magnet 100 in the base elongated cavity 82 is attracted to its corresponding single magnet 100 in the face elongated cavity 92 and the resulting magnetic pairing seals the face section 30 to the base section 20.
Additionally, each magnet 100 inside the base elongated cavity 82 and the face elongated cavity 92 is magnetically attracted along one of its short edges to the closest short edge of its adjacent magnet 100 (or magnets 100 in the case of an interior magnet 100). This internal short edge magnetic attraction within each elongated cavity (82, 92) advantageously creates a segmented and malleable magnetically sealed barrier within each elongated cavity (82, 92) and therefore along at least a lower portion of the base perimeter 60 and along at least a lower portion of the face perimeter 70.
In an alternative embodiment, a single elongated magnet 100 may fill the same space within the base piping 80 as the plurality of magnets 100 previously described. Similarly, a single elongated magnet 100 may also fill the same space within the face piping 90 as the plurality of magnets 100 previously described. In such an embodiment, the single elongated magnet 100 may be formed by extrusion in order to conform the shape of the single elongated magnet 100 to any curves of the base piping 80 or the face piping 90. In such an embodiment, the single elongated magnet 100 in the base piping 80 may be made of a magnetic material having a single pole that is attracted to the single elongated magnet 100 in the face piping 90 that is made of a magnetic material having the opposite pole. Alternatively, the single elongated magnets 100 may comprise both magnetic poles arranged in a variety of fashions to facility alignment and magnetic attraction between the single elongated magnet 100 in the base piping 80 and the single elongated magnet 100 in the face piping 90.
Additionally, in one embodiment an elongated magnet 100 may be attached directly to the base perimeter 60 and eliminate the need for the base piping 80. Similarly, an elongated magnet 100 may be attached directly to the face perimeter 70 and eliminate the need for the face piping 90. In such an embodiment, the elongated magnet 100 can be attached by way of stitching, welding, adhesive or the like. Additionally, the elongated magnet 100 attached directly to the base perimeter 60 and the elongated magnet 100 attached directly to the face perimeter 70 are magnetically attracted to each other and the resulting magnetic pairing seals the face section 30 to the base section 20.
Additionally, in alternative embodiments, the base piping 80 may include one or more magnets 100 while the corresponding face piping 90 may include one or more segments (not shown) comprising a metal to which the magnets are attracted. Alternatively, the face piping 90 may include one or more magnets 100 while the corresponding base piping 80 may include one or more segments (not shown) comprising a metal to which the magnets are attracted. In these alternative embodiments, magnets are only include in one piping while the corresponding piping includes metal to which the magnets are attracted.
Advantageously, when the face section 30 is detached and extended along the side of the base section 20 toward the back of the head of the user, one or more of the plurality of magnets 100 within the face elongated cavity 92 is magnetically attracted along its long edge to the long edge of corresponding one or more magnets 100 of the fastener 22. Accordingly, the magnetic pairing of one or more magnets 100 in the face elongated cavity 92 with the one or more magnets 100 in the fastener 22 allows the face section 30 to be magnetically secured out of the way in its detached state.
An additional purpose of the length of the magnet 100 is to allow the base perimeter 60 and the face perimeter 70 to curve along the contours of the head garment 10 and the face of the user. Accordingly, the length of the magnet 100 must be both long enough to prevent X-Y-Z positional rotation within the piping but short enough to allow the piping to curve along the contours of the head garment 10 and the face of the user. In one embodiment, the length of each magnet 100 is approximately two centimeters (2 cm) and may alternatively be within a range of approximately one centimeter (1 cm) to three centimeters (3 cm).
In the illustrated embodiment, the magnet 100 comprises a magnetic north pole portion 105 and a magnetic south pole portion 110. The magnetic north pole portion 105 and magnetic south pole portion 110 each comprise roughly half of the material of the magnet 100. The magnet 100 has two long edges 120, 125 and two short edges 130, 135. The magnetic north pole portion 105 extends along the entire length of long edge 120 and a portion of the length of each of the two short edges 130, 135. The magnetic south pole portion 110 extends along the entire length of long edge 135 and a portion of the length of each of the two short edges 130, 135.
When the face piping 90 comes into proximity of the base piping 80, magnet 100A and magnet 100D are magnetically attracted to each other along respective long edges by way of magnetic attraction 115A and magnet 1006 and magnet 100E are magnetically attracted to each other along respective long edges by way of magnetic attraction 1156 and magnet 100C and magnet 100F are magnetically attracted to each other along respective long edges by way of magnetic attraction 115C.
Moreover, magnetic attraction 115 along adjacent long edges of magnets 100A and 100D form a portion of the seal between the face section 30 and the base section 20. Additionally, magnetic attraction 115 along adjacent long edges of magnets 100B and 100E and magnets 100C and 100F also form a portion of the seal between the face section 30 and the base section 20. In combination, the magnetic seal between the individual magnets within a piping and the magnetic seal between corresponding magnets of the face piping 90 and the base piping 80 form an overall magnetic seal between the face section 30 and the base section 20 that allows the face section 30 to be detached from and re-attached to the base section 20 and when attached, the seal prevents wind and rain and cold elements from penetrating the head garment 10 at the connection between the base section 20 and the face section 30.
Advantageously, when the face section 20 is sealed to the base section 30, each interior magnet 100B and 100E is magnetically connected to another magnet on at least three different sides and has five independent magnetic attractions while each end magnet 100A, 100C, 100D, 100F is magnetically connected to another magnet on two different sides and has three independent magnetic attractions.
An additional purpose of the length of the magnet 100 is to allow the base perimeter 60 and the face perimeter 70 to curve along the contours of the head garment 10 and the face of the user. Accordingly, the length of the magnet 100 must be both long enough to prevent X-Y-Z positional rotation within the piping but short enough to allow the piping to curve along the contours of the head garment 10 and the face of the user. In one embodiment, the length of each magnet 100 is approximately two centimeters (2 cm) and may alternatively be within a range of approximately one centimeter (1 cm) to three centimeters (3 cm).
In the illustrated embodiment, the magnet 100 comprises a magnetic north pole portion 105 and a magnetic south pole portion 110. The magnetic north pole portion 105 and magnetic south pole portion 110 each comprise roughly half of the material of the magnet 100. The magnet 100 has two long edges 120, 125 and two short edges 130, 135. The magnetic north pole portion 105 comprises approximately the entire half of the magnet 100 that includes short edge 130. The magnetic south pole portion 110 comprises approximately the entire other half of the magnet 100 that includes short edge 135.
When the face piping 90 comes into proximity with the base piping 80, the north pole portion 105 and the south pole portion 110 of a long edge of magnet 100A are each magnetically attracted to the opposite and therefore magnetically corresponding south pole portion 110 and north pole portion 105 of a long edge of magnet 100D by way of magnetic attractions 115A and 1156. Similarly the north pole portion 105 and the south pole portion 110 of a long edge of magnets 100B and 100C are each magnetically attracted to the opposite and therefore magnetically corresponding south pole portion 110 and north pole portion 105 of a long edge of magnets 100E and 100F by way of magnetic attractions 115C, 115D, 115E and 115F.
Moreover, dual magnetic attractions 115 along two portions of adjacent long edges of magnets 100A and 100D form a portion of the seal between the face section 30 and the base section 20. Additionally, magnetic attractions 115 along two portions of adjacent long edges of magnets 1006 and 100E and magnets 100C and 100F also form a portion of the seal between the face section 30 and the base section 20. In combination, the magnetic seal between the individual magnets within a piping and the magnetic seal between corresponding magnets of the face piping 90 and the base piping 80 form an overall magnetic seal between the face section 30 and the base section 20 that allows the face section 30 to be detached from and re-attached to the base section 20 and when attached, the seal prevents wind and rain and cold elements from penetrating the head garment 10 at the connection between the base section 20 and the face section 30.
Advantageously, when the face section 20 is sealed to the base section 30, each interior magnet 100B and 100E is magnetically connected to another magnet on at least three different sides and has four independent magnetic attractions while each end magnet 100A, 100C, 100D, 100F is magnetically connected to another magnet on two different sides and has three independent magnetic attractions.
The above description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles described herein can be applied to other embodiments without departing from the spirit or scope of the invention. Thus, it is to be understood that the description and drawings presented herein represent a presently preferred embodiment of the invention and are therefore representative of the subject matter which is broadly contemplated by the present invention. It is further understood that the scope of the present invention fully encompasses other embodiments that may become obvious to those skilled in the art and that the scope of the present invention is accordingly not limited.
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