The invention relates to pillows, and in particular to inflatable travel pillows that provide a comfortable support for a person using said pillow by providing a cushion support for a user's head when interposed between a user's head and a surface upon which a user's head is resting.
Known pillows come in various forms. The most basic pillows are generally rectangular in shape and can be inflated to provide a cushioned support. Although basic pillows often have an indentation, or similar such feature, for locating a user's head therein, such pillows are not adapted, or optimised, for user comfort because the three-dimensional shape formed by the pillow does not complement the natural shape of a user's head and neck when resting upon a surface. These pillows are adapted for use in a horizontal position.
Known improvements upon the generally rectangular shaped pillows have, in plan view, a U-shape profile. When inflated, these U-shaped pillows function like a collar, allowing a user's neck to be surrounded by the U-shaped profile of the pillow. These pillows are adapted for use in an inclined position.
Unfortunately, in use, the inventors have found that the “collar” type pillows provide limited lateral support to user's head. Further, the U-shaped profile, in particular the base portion of the “U”, prevents a user's head and neck from resting in a natural position because a user's head located within the U-shaped pillow cannot fully rotate backwards to lie flat, or close to, the surface upon which the user is resting.
In effect, the portion immediately behind the neck unnaturally pushes the user's head forward towards the user's chest. Moreover, an inflated “collar” type pillow has a tendency to wrap around, or constrict a user's throat area.
Improvements to known collar-type pillows have had limited success. In one known example, the area at the base of the “U” that locates beneath a user's neck has been reduced in size to allow a user's head to rotate further rearwards towards the surface upon which a user is resting. Unfortunately, some of the other problems mentioned above remain.
It is against this background that the present invention has been made. This invention results from efforts to overcome the problems of known pillows. Other aims of the invention will be apparent from the following description.
The pillow of the invention is configured to channel a user's head towards the apex of a V-shaped profile formed in the pillow when inflated, to secure the user's head therein. A channel, furthermost from wing ends of the pillow is configured to provide a “pinch-point”, or constriction zone, between the wings of the pillow to form the V-shape profile.
In one aspect, the invention resides in a pillow, comprising two sheets of flexible material, joined together to define a space, suitable for inflating to provide a cushioned support. The pillow has: a head zone for providing cushion means interposed between a user's head and the surface upon which said user is resting; two wings, configured to extend away from a centre line of the head zone towards wing ends such that the deflated pillow is substantially U-shaped in the plane of the pillow; a channel, defined between the sheets of flexible material, configured to connect the wings, and positioned at a point in the head zone remote from the wing ends, wherein the width of the channel increases from the centre line such that when the pillow is inflated, the pillow has a substantially V-shaped profile, formed about the centre line and centred about the channel. Other profiles may be formed at other parts of the pillow. Preferably, the channel is adjacent the edge of the pillow furthermost from the wing ends.
The pillow of the invention is advantageous because the pillow is configured to form, when inflated, a wedge shaped gap when viewed in elevation, such as a substantially V-shaped channel, between the wings, to securely locate a user's head therein. The pillow, when inflated, retains this shape relatively rigidly.
The gap may be defined by the wings extending upwardly, with respect to the surface on which the pillow is resting, from a point close to where the centre line passes through the head zone. Preferably, the apex of the V-shaped profile extends from the intersection of the centre line with the channel.
The channel narrows towards the centre line, when seen in elevation (normal to plane of sheets of flexible material) when inflated. The sides of the V-shape, defined by an upper sheet of the inflated pillow, may curve.
The V-shaped profile may define an angle, at the apex of the “V” greater than 10 degrees. The angle may be between of between 10 degrees and 180 degrees. Preferably, the angle is 150 degrees.
The V-shape profile may be dictated the degree by which the width of the channel increases from the centre line. By way of example, a small increase of the width of the channel over a predetermined distance may function to form a substantially obtuse apex, while a large increase in width over the same distance may function to form a narrower apex.
In effect, the channel has a waist formed about the centre line, where it narrows towards the narrowest point of the channel. Preferably, the width of the channel decreases smoothly towards the centre line. Preferably, the width of the channel at its narrowest point is not zero, as this helps to form a rigid V shape.
In effect, the V-shaped profile secures a user's head therein such that the centre of gravity of a user's head is biased towards the apex of the “V” and substantially recessed between the wings of the pillow, thus providing greater support and stability to a user's head, in use.
The centre line may be substantially equidistant between the wings, or may be symmetrical about the centre line.
The pinch-point, or constriction point, results in the wings adopting a V-shaped profile in its inflated resting position. In turn, this pushes the wings up in a direction of the users jaw line and/or chin, rather than merely resting on the shoulder blades in the same way as known pillows.
The head zone may be circular in shape in the plane of the cushion, or the head zone may take any shape, provided that it complements the forming of a V-shaped profile, when the pillow is inflated, by ensuring that the width of the channel increases from the centre line. The width direction is defined by the direction of the centre line.
The head zone may define an inflatable chamber to provide a cushioning surface for a user's head without the need for additional foam or cushioning. The inflatable chamber may be connected to the channel and/or the wings. The head zone may comprise a foam filled portion. The head zone may be an inflatable chamber and have a foam filled portion. The foam may be memory foam.
The head zone may be configured with a bridge connecting the wings. Preferably, the bridge may be arranged at a point in the head zone nearest the wings. The bridge may have a second channel configured to connect, by fluid communication, the wings.
The second channel and/or the bridge may increase in width from the centre line such that when the pillow is inflated, the pillow has a substantially V-shaped profile, centred about the second channel and/or the bridge. Therefore, the bridge may be shaped, and configured, to complement the formation of a V-shaped profile when the pillow is inflated.
The shape of the bridge may be configured such that the head zone is substantially flat, or preferably profiled to ergonomically match the shape of a user's head. In order to do so, the head zone may comprise foam, an air cushion, or a combination of foam and an air cushion portion.
Preferably, the second channel and/or the bridge may be shaped such that when the pillow is inflated, the head zone is substantially flat in the region closest to the wing ends and substantially V-shaped in profile, centred about the centre line of the channel.
The width of the second channel and/or the bridge may be greater than the width of the channel. It may be advantageous to control the shape of the head zone by controlling the width of the channel and the second channel and/or the bridge, the differences in the width dimensions between said elements being configured to control the shape of the head zone.
The width of the smallest part of the channel, bridge and/or second channel may be smaller than the width of the widest part of an adjacent wing.
The profile of the bridge and/or second channel may be dictated the degree by which the width of the bridge and/or second channel increase from the centre line.
The shape of the pillow, in plan view, is substantially U-shaped when in a deflated and an inflated condition. The edges of the “U” may be rounded or comprise straight line sections. In use, the U-shape may be arranged to leave open the area in front of a user's neck.
The pillow may have further additional sheets or layers of material, and may include 3 or more sheets. The additional sheets may be the same size, as the two sheets of flexible material, joined together to define a space, or may be smaller in size to cover a specific area of the exterior of the pillow. Additional sheets may be added to improve strength, comfort, durability and or appearance.
In order that the invention may be more readily understood, reference will now be made, by way of example, to the drawings in which:
The pillow shown in
The pillow of
The arms 6 provide a degree of lateral support to a user's head; however, the forward biased position of the head is such that the head can easily roll between the arms 6. In effect, the position of the arms 6 with respect to a user's head is such that the centre of gravity of a user's head is held in a raised position above the plane defined by the pillow, which results in there being insufficient support for the head.
The pillow of
By way of example,
As viewed in
Structurally, the shape of the welds 14 on the sheets 12 defines the pillow. During manufacture, front and back sheets 12 are layered together before being connected by connection means such as stitching, adhesive, welding (heat, resistance, RF, ultrasound) or a combination to create the welds 14. The welds define the shape of the pillow 10, the head zone 16, the wings 18 and the wing ends 20. More importantly, the weld pattern defines the shape of the channel 22 and the bridge 26.
The pillow may be constructed of any suitable material, such as PVC. The pillow may be assembled from individual sheets, or a single sheet, folded over.
After the sheets are welded together, excess material is trimmed from the sheets to leave a footprint of material as shown in
In the embodiment shown in
In effect, the shape of the channel 22 as it extends from centreline 24 towards the wings 18 and wing ends 20 has a waist, narrowing about the centre line. On one side of the waist, the channel may have a corniculate, or funnel-like form. To be clear, the narrow end of the horn, or funnel, is represented by the waist, narrowest point, or “pinch-point” of the channel 22.
The pillow 10 is inflated via the inflation point 28. Upon inflation, the cavity between the sheets 12 expands such that the wings 18, the wing ends 20, and the channel 22 have a three-dimensional form.
Upon expansion, the pillow takes a three-dimensional form. In plan view, as shown in
In comparison, the pillow of the invention, as shown in
As shown, the arms of the “V” extend vertically and are defined by the wings. Between the wings 18, a substantially flat head zone 16 is formed. The V-shaped profile allows a user's head to be channelled into the pillow such that the centre of gravity of a user's head lies closer to the surface upon which a user rests in comparison to known pillows.
Further, the wings of the pillow extend in an outward direction with respect to the head zone 16 such that the throat air of a user's neck remains exposed, the formation of the pillow 10 being formed such that the wings are inhibited from constricting the throat area. This difference can clearly be seen by comparing
The pillow of the invention provides cushioning support for both the head and the neck of a user. Referring back to
A user's head may rest in the apex of the V-shaped profile, being channelled therein, while providing sufficient space for the head to prevent a user feeling trapped.
In order that the structure of the pillow 10 may be better understood, section X-X and section XI-XI are indicated in
The bridge 26 forms a second channel 27 between the wings 18. Alternatively, the bridge 26 may form a sealed barrier between the wings 18. The shape of the bridge may be formed to complement the formation of the V-shaped profile of the pillow.
In another embodiment, not shown, the head zone 16 is not enclosed by welds 14 and, instead, is connected to the wings 18 and/or the channel 22, such that air blown into the pillow through the inflation point 28 serves to inflate the head zone 16 such that it functions as a cushion for a user's head.
A circular shape, or a series of ever decreasing circles, to complement the shape of a user's head, may define the head zone 16. However, any shape may be used that enables the pillow to form a substantially V-shaped profile around the centre line 24.
A crease along a portion of the centre line 24, in effect, forms the V-shaped profile. The crease is formed by a “pinch-point” that is formed by the limited size of the aperture in the channel 22 between the wings 18. By restricting the air passage between the wings 18, the channel 22 effectively buckles around its narrowest point.
The present invention has been described above purely by way of example, and modifications can be made within the spirit and scope of the invention, which extends to equivalents of the features described. The invention also exists in any individual features described or implicit herein or shown or implicit in the drawings or any combination of such features or any generalisation of such features of combination.
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0900938.2 | Jan 2009 | GB | national |
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Number | Date | Country | |
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Child | 14263029 | US |