The invention relates particularly to molded plastic furniture, particularly chairs and stools having a hard surface seat.
Molded plastic chairs are popular for use as outdoor furniture because they are not damaged by rain or snow. Molded plastic furniture is also light weight. Many molded plastic chairs are configured to be stackable so that several chairs can be stacked one upon the other for storage.
The seat in most molded plastic chairs is a flat or curved surface that may be horizontal or inclined. Because the surface is hard, many people become uncomfortable after being seated for a period of time. Depending on the person, that period of time may be less than five or ten minutes or as long as an hour. Many people will place cushions on the seats of molded plastic chairs to make them more comfortable.
Wooden chairs and indeed any chair which has a hard surface on the seat can be quite uncomfortable, particularly when the person must sit there for an extended period of time. Manufacturers have tried to make hard seats more comfortable by providing a contour in the seat surface. The contour or depression has been round or oval roughly corresponding to the outer surface of the buttocks of an average person who may sit on the seat. Indeed, some wooden seats used in classroom chairs have been shaped to make them more comfortable. Such shaping has generally involved providing a pair of spaced apart concave areas extending from the edge of the seat inward or an oval or round concave depression in the center of the seat.
When a person sits on a hard surface, the gluteus maximus and other muscles and tissues in the posterior are compressed. At the same time, blood vessels are compressed, adding to the discomfort. The objective in providing curved surfaces in seats is to increase the contact area between the seated person and the seat to spread the forces over a greater area. Prior to the present invention, that art has shaped those surfaces to generally correspond to the shape and position of the thighs and buttocks of the average person who may sit on that seat. Although these contour surfaces often make a hard seat more comfortable than a flat seat, even hard surfaced seats that have been made with curved surfaces tend to become uncomfortable. Consequently, there is a need for a seat having a hard surface that is formed in such a manner as to be more comfortable to the person seated on that seat.
We provide a seat, as well as a chair, a bench, and a stool having a seat, which is preferably made of molded plastic, but could also be made of wood or concrete or a hard composite material. The seat has a permanent depression in the surface of the seat that corresponds generally in shape to the lower protuberances of a human iliac bone. This shape has concave curved central channel which has a first end and a second end. There is a first concave boomerang shaped channel having a central portion connected to the first end of the concave curved central channel and a second concave boomerang shaped channel having a central portion connected to the second end of the concave curved central channel. A chair, stool or bench whose seat has such a permanent depression is more comfortable to the person sitting on that seat than hard seats on seating devices known in the art.
We may also provide a pair of depressions that extend from the central channel to the front edge of the seat and which depressions correspond to the rear surface of a human thigh. Depending upon the type of chair on which the seat is used and whether the seat is inclined or horizontal, the central channel may be centered relative to the front edge and the rear edge of the seat or be closer to the front edge or closer to the rear edge of the seat.
Other details and advantages of the invention will become apparent from a description of certain preferred embodiments shown in the drawings
Referring to
The seat 2 has a permanent depression 12 in the surface 13 of the seat that corresponds in shape to an end view of a human iliac bone. This shape has concave curved central channel 14, a first concave boomerang shaped channel 15 connected at its center to one end of the concave curved central channel and a second concave boomerang shaped channel 16 connected at its center to an opposite end of the concave curved central channel. The concave curved central channel and the two boomerang shaped channels form a bent dog bone shape. The concave curved central channel has a length of between 5 and 8 inches (12.7 to 20.3 cm.). The two boomerang shaped channels extend that length to between 9 and 12 inches (22.9 to 30.5 cm.). The concave curved central channel has a maximum depth which preferably does not exceed ⅝ inch (1.6 cm.). The bottom of the concave curved central channel 15 may be flat or slightly concave. Side walls extend upward from the base of the concave curved central channel. As can be seen most clearly in
We have discovered that when a person sits on a hard surface several muscles are compressed. When the buttocks are sandwiched between a hard seating area and the prominent lower curve of the iliac bone protuberances (the lower part is the ischium), discomfort ensues to the overly compressed gluteus maximus muscles, the blood vessels within, and the skin. Pressure comes from both the hard seat and the ischium bones, increasingly cutting off circulation and compressing nerves as the pressure on the sitter's rear end continues to be maintained. By putting the right size and shape of depression in the chair seat, the maximum distance is maintained between the ischium and the seat surface. That configuration relieves pressure on the gluteus maximus muscles and the skin, making our new seat more comfortable.
Variations in human sizes were carefully considered. We designed the cavity to fit people between 4′11″ and 6′3″ comfortably. We made sure that the present design made the seat as comfortable as possible for sitters weighing between 95 and 240 pounds.
When a person sits on a chair, the two lowest protuberances of the iliac bone are pushed downward, toward the surface of the chair. The lower iliac protuberances press against the tissue between them and the actual seat. By providing a depression beneath each lower iliac protuberance, the compression of tissue between the lower iliac protuberance and the seating surface is minimized.
The seat design disclosed herein was developed based upon feedback from people ranging in size from 5′ to over 6′ tall. Various sizes and shapes of depressions were made and compared. The sizes that we have used in this application work best. Some rounding is necessary, and when the chair seat is angled backwards, as in an Adirondack chair, the cavities are deeper in the rear portion than in the front. That configuration lets the bone push above the depression that is beneath it, which has shifted to the rear depending on the slant of the chair and angle of the back.
The shape of the seta also takes into account the sensitive perineum area between the anus and the scrotum in males and between the anus and the vulva in females. When we provide the more comfortable cavity for the tissue beneath the iliac bone, the seat does not force the perineum area to absorb more pressure. The depressions in our seat minimize depression of the tissue below the lower iliac protuberances in a way that does not transfer more pressure to the perineum. Our seat has achieved maximum comfort to the sub-iliac area while relieving pressure to the perineum. In short, we eliminate pressure on the premium while reducing pressure to the maximum on the tissue below the lower iliac protuberances.
Some chairs use leather, webbing, or plastic straps to make the seat. When a person “sinks into” such a surface, the buttocks are forced together, making seating less comfortable. Such discomfort increases over time as the lower iliac protuberances compress the tissue beneath them. To make even these flexible seats more comfortable, a depression similar in size to that disclosed in this invention may be formed into the surface of such a seat. And, these depressions are also helpful in cushions, keeping the sub-iliac tissue and the nerves and blood vessels between those bones and chair surface from being needlessly compressed.
The depth and placement of the permanent depression should change from chair to chair, depending on the angle of the back. In the present embodiment of a stool shown in
In commercial embodiments of the seat, there may be some rounding and changing of the shapes that provide maximum comfort to the tissue between the iliac bone's lower projections and the seating surface. While maximum comfort is important, the commercial embodiments may differ from the comfort ideal when it is thought more important to provide a cleaner, more attractive visual appearance.
If desired, one could provide a higher back and arms on the stool shown in
We may provide a hole 24 shown in dotted line in
Referring to
A third present preferred embodiment shown in
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While we have shown and described certain present preferred embodiments of my seat for molded plastic furniture, it should be distinctly understood that the invention is not limited thereto but may be variously embodied in the scope of the following claims.