Adjustable headrest

Herein is disclosed an adjustable headrest comprising: a base mountable to a treatment table; a slider rail mounted to the base; a support arm configured to slide along the slider rail; a lockable ball joint mounted to the support arm; a support member mounted to the ball joint; and a faceplate mounted to the support member.

TECHNICAL FIELD

The present invention is directed to apparatus for supporting an individual. More particularly, the present invention is directed to apparatus for supporting an individual's head.

BACKGROUND

Many personal treatments, for example, massage therapy treatments and chiropractic treatments, require an individual to lie upon a treatment table. When lying upon the treatment table, the individual's head must be supported. Ideally, the treatment table can support the individual's head in both a prone and a supine position.

Many treatment tables lack suitable headrests for an individual's head. As such, various headrests that are mountable to a treatment table exist. However, many of the existing headrests suffer various limitations. Such limitations include: supporting the individual's head when either supine or prone, and being limited in the degrees of movement for the headrest, among others.

There is a general desire for an improved adjustable headrest. Additionally, there is a general desire for an adjustable headrest that can support an individual's head in both prone and supine positions.

SUMMARY

Further aspects and example embodiments are illustrated in the accompanying drawings and/or described in the following description.

One aspect of the invention provides an adjustable headrest comprising: a base mountable to a treatment table; a slider rail mounted to the base; a support arm configured to slide along the slider rail; a lockable ball joint mounted to the support arm; a support member mounted to the ball joint; and a faceplate mounted to the support member.

One aspect of the invention provides a method of supporting an individual's head with an adjustable headrest during a personal treatment, the method comprising: mounting a base of the adjustable headrest to a treatment table; supporting the individual's head with a faceplate of the adjustable headrest while the individual lies upon the treatment table; and one or both of rotating and spinning the faceplate relative to the base, while the personal treatment is performed upon the individual. The personal treatment may include a massage and/or chiropractic treatment of the individual's head, neck, and/or shoulders.

Another aspect of the invention provides a method for providing a dynamic treatment to an individual's head, neck, and/or shoulders using an adjustable headrest. The method comprises supporting the individual's head with a faceplate attached to a ball joint of the adjustable headrest, and one or both of rotating and spinning the ball joint, and thereby the faceplate, during the dynamic treatment.

In some embodiments, the individual's head is supported with the adjustable headrest while the individual is lying either prone or supine upon the treatment table. The adjustable headrest may be mounted to the treatment table in a first configuration when the individual is lying prone upon the treatment table, and in a second configuration when the individual is lying supine upon the treatment table.

In some embodiments, the dynamic treatment may be provided with one or more embodiments of the adjustable headrest as otherwise described herein.

DESCRIPTION

While a number of exemplary aspects and embodiments have been discussed above, those of skill in the art will recognize certain modifications, permutations, additions, and sub-combinations thereof. It is therefore intended that the following claims are interpreted to include all such modifications, permutations, additions, and sub-combinations as are consistent with the broadest interpretation of the specification as a whole.

The same reference numerals may be used across multiple figures to indicate the same elements in the figures. Unless indicated otherwise, the same reference numeral indicates the same element across figures.

FIG. 1A is a front perspective view of adjustable headrest 100 according to an example embodiment of the present invention. Headrest 100 comprises base 10, wherein base 10 is mountable to a treatment table. Headrest 100 further comprises slider rail 12 mounted to base 10, and support arm 14 configured to slide along slider rail 12. Lockable ball joint 16 is mounted to support arm 14, and support member 18 is mounted to ball joint 16. Support member 18 supports faceplate 20, and faceplate 20 is configured to support a cushion (not shown).

FIGS. 1B to 1F are further view of adjustable headrest 100, depicting headrest 100 in a supine configuration. FIGS. 2A to 2C are further view of adjustable headrest 100, depicting headrest 100 in a prone configuration.

Faceplate 20 of headrest 100 may be raised and lowered relative to base 10 by sliding support arm 14 along slider rail 12. Faceplate 20 may be rotated and/or spun relative to base 10 by rotating and/or spinning ball joint 16. Where headrest 100 is mounted to a treatment table, faceplate 20 may be raised, lowered, rotated, and/or spun relative to the treatment table.

Headrest 100 may be configured and mounted to a treatment table in one of two configurations: a supine configuration as depicted in FIGS. 1A to 1F and 3A, and a prone configuration as depicted in FIGS. 2A to 2C and 3B. In the supine configuration of headrest 100, as depicted in FIG. 3A, base 10 is mounted to treatment table 50 with slider rail 12 extending upwards from treatment table 50. In the prone configuration of headrest 100, as depicted in FIG. 3B, base 10 is mounted to treatment table 50 with slider rail 12 extending downwards from treatment table 50. Mounting base 10 to treatment table 50 in the supine configuration may allow support arm 14 to be raised higher relative to base 10, and thereby higher relative to treatment table 50, than when base 10 is mounted to treatment table 50 in the prone configuration. Mounting base 10 to treatment table 50 in the prone configuration may allow support arm 14 to be lowered lower relative to base 10, and thereby lower relative to treatment table 50, than when base 10 is mounted to treatment table 50 in the supine configuration.

In one or both of the supine configuration and the prone configuration of headrest 100, headrest 100 may facilitate movement of an individual's head during a treatment. For example, by rotating and/or spinning faceplate 20 relative to base 10 during a treatment, an individual's head resting upon faceplate 20 may be rotated and/or spun during the treatment. Such movement of an individual's head during a treatment may enable dynamic treatment of the individual. For example, a treatment professional may apply pressure to a portion of the individual's head, neck, or shoulders, and instead of a conventional technique of moving the application of pressure, the professional may instead move the individual's head relative to the application of pressure. As another example, the treatment professional may move the individual's head to facilitate stretching of the individual's neck and/or shoulders during a treatment.

In some embodiments of headrest 100, base 10 comprises strut 22 having first end 24A and opposing second end 24B (collectively, opposing ends 24). Base 10 further comprises mounting member 26A and 26B (collectively, mounting member 26) mounted to opposing ends 24 of strut 22. Slider rail 12 extends from strut 22 between opposing ends 24 of strut 22.

Mounting members 26 are configured to be mounted to treatment table 50. FIGS. 3A and 3B are schematic diagrams depicting base 10 and slider rail 12 of headrest 100 mounted to treatment table 50 in a prone configuration (FIG. 3A), and a supine configuration (FIG. 3B). FIGS. 3A and 3B depict an embodiment of mounting members 26, wherein each of mounting members 26 comprise a tubular projection.

Tubular mounting members 26 are configured to be received by treatment table 50, for example first aperture 52A and second aperture 52B (collectively, apertures 52) of treatment table 50. In such embodiments, the distance between mounting members 26 equals a distance between apertures 52. Apertures 52 may comprise circular apertures.

In some embodiments, adjustable headrest 100 may be readily reconfigurable between the first configuration and the second configuration. For example, where adjustable headrest 100 comprises tubular projections 26, each of tubular projections 26 are configured to be received by either one of two circular apertures 52 of treatment table 50. Adjustable headrest 100 may be configured in the first configuration by inserting first tubular projection 26A into first circular aperture 52A, and second tubular projection 26B into second circular aperture 52B. Adjustable headrest 100 may then be reconfigured into the second configuration by removing tubular projections 26 from circular apertures 52, and inserting second tubular projection 26B into first circular aperture 52A and first tubular projection 26A into second circular aperture 52B. As such, adjustable headrest 100 may be readily reconfigurable between the first configuration and the second configuration.

In some embodiments, mounting members 26 may further comprise one or more features for securing mounting members 26 to the treatment table. For example, mounting members 26 may comprise one or more clamps (not shown), wherein the clamps secure mounting members 26 to the treatment table, once headrest 100 is mounted to the treatment table.

Support arm 14 is configured to slide along slider rail 12 while being restrained against rotation around slider rail 12. In order to restrain support arm 14 from rotating about slider rail 12, slider rail 12 may have at least one bearing surface which a corresponding surface of support arm 14 slides along. The bearing surfaces may restrain rotation of support arm 14 about slider rail 12 as support arm 14 slides along slider rail 12.

Slider rail 12 may comprise one or more longitudinal grooves, and support arm 14 may have a corresponding number of projections configured to slide through the longitudinal grooves of slider rail 12 as support arm 14 slides along slider rail 12. The grooves of slider rail 12 and corresponding projections of support arm 14 may hold support arm 14 to slider rail 12, while permitting support arm 14 to slide along slider rail 12. Furthermore, the grooves and projections may further restrain rotation of support arm 14 about slider rail 12.

One or both of slider rail 12 and support arm 14 may further comprise features for arresting the sliding of support arm 14 along slider rail 12. For example, support arm 14 may comprise clamp 28, wherein clamp 28 selectively locks support arm 14 to slider rail 12. In some embodiments, clamp 28 comprises a thumb screw configured to screw through support arm 14 and press against the slider rail 12, thereby arresting the sliding of support arm 14 along slider rail 12.

Support arm 14 may comprise spar 30 having first end 32A and second opposing end 32B. First end 32A of spar 30 may be configured to slide along slider rail 12, and ball joint 16 may be mounted to second end 32B of spar 30. In some embodiments, spar 30 comprises a projection configured to slide along a longitudinal groove of slider rail 12.

Ball joint 16 may comprise socket 34 and ball and stud 36 sitting in socket 34. In some embodiments, socket 34 of ball joint 16 is mounted to support arm 14. For example, where support arm 14 comprises spar 30, socket 34 may be mounted to second end 32B of spar 30. Faceplate 20 may be mounted to the stud of ball and stud 36.

To selectively lock ball joint 16, ball joint 16 may further comprise thumb screw 38 configured to screw through socket 34 and press against the ball of ball and stud 36, thereby locking the ball of ball and stud 36 against rotating within socket 34. Thumb screw 38 may comprise a threaded bar, and stud 36 may form a threaded aperture configured to receive the threaded bar of thumb screw 38. Thumb screw 38 may further comprise a knob to facilitate screwing the threaded bar through the threaded aperture and bearing down of the threaded bar against the ball of ball and stud 36.

In some embodiments, support member 18 comprises central body 40 mounted to ball joint 16 and three arms 42A, 42B and 42C (collectively, arms 42) extending from central body 40. Each of arms 42 may comprise a flexibly resilient riser, wherein the risers support faceplate 20. The risers may deflect and/or compress to facilitate passive adjustment of faceplate 20 to an individual's head. Passive adjustment of faceplate 20 means lowering of one or more of the risers to shift weight from the lowered risers to the other risers, thereby redistributing the weight between the risers.

Faceplate 20 may comprise a U-shaped plate supported by arms 42. In some embodiments, U-shaped faceplate 20 is evenly supported by arms 42. Evenly supported may mean each of arms 42 supports a generally similar weight of faceplate 20, when faceplate 20 supports an individual's head. U-shaped faceplate 20 may support an individual's forehead and cheeks when the individual is in a prone position without supporting the individual's chin, thereby removing any pressure from the individual's chin.

In some embodiments, headrest 100 is configured to support an individual's head in both a prone position and a supine position. Support arm 14 may be configured to slide to a first position along slider rail 12 for supporting the individual's head in the prone position, and to a second position along slider rail 12 for supporting the individual's head in the supine position. In some embodiments, base 10 may be configured to be mounted to a treatment table in two configurations, a first configuration wherein slider rail 12 extends upward from base 10, and a second configuration wherein slider rail 12 extends downwards from base 10. In such embodiments, upwards is defined away from the ground, and downwards is defined as towards the ground.

Support arm 14 may be configured to slide along slider rail 12 when slider rail 12 extends either upwards from or downwards from base 10. In some embodiments, slider rail 12 may form two longitudinal grooves along opposing sides of slider rail 12, and support arm 14 may have two corresponding projections. As such, each of the projections of support arm 14 may slide through either of the grooves of slider rail 12. This allows support arm 14 to slide along slider rail 12 when base 10 is mounted in either a prone or a supine configuration, as otherwise described herein.

The first configuration of base 10 with slider rail 12 extending upwards may support the individual's head in the supine position, and the second configuration of base 10 with slider rail 12 extending downwards may support the individual's head in the prone position. The second configuration of base 10 may allow headrest 20 to be lowered lower relative to the treatment table than the first configuration of base 10. As such, the second configuration of base 10 may permit a wider range of heights for headrest 20 suitable for supporting the individual's head in the prone position relative to the treatment table. Similarly, the second configuration of base 10 may permit a wider range of heights for headrest 20 relative to the treatment table and therefore suitable for supporting the individual's head in the supine position. Accordingly, headrest 100 may support a wider range of headrest heights relative to the treatment table than if base 10 were mountable to the treatment table in only the first or the second configuration.

Example Embodiments

In some embodiments of the present invention, each of mounting members 26 and apertures 52 form in cross section a symmetrical shape. Examples of symmetrical shapes include: a circle, an oval, a square, a rectangle, and the like.

In one or more embodiments of the present invention:

Unless the context clearly requires otherwise, throughout the description and the