The present invention relates to seats, and particularly to a foldable chair that occupies a relatively small amount of space and provides a more ergonomic folding motion following the natural standing and sitting motions of a user for comfortable, selective deployment and support.
Foldable chairs can include moveable individual chairs, or a stationary group of connected chairs. Foldable chairs provide flexibility in utilizing available space. For example, when an event requires seating, the foldable chair may be extended into the available space. When an event requires the space for purposes other than seating, the foldable chairs may be stowed away to provide more space for other purposes.
In mosques, for example, foldable chairs are often brought into a prayer area when needed for disabled, elderly, or other individuals for whom it is difficult to assume the various physical positions required during the muslim prayer. These conventional foldable chairs, however, are generally bulky, unstable, and/or occupy more space than is needed to accommodate the user. Further, these conventional foldable chairs do not provide any dynamic support or assistance to the user during the process of sitting and standing.
In light of the above, a foldable chair that is compact and supports the user attempting to sit on or rise from the chair, is desirable.
A foldable chair includes a seat panel having a first end portion and a second end portion, a pivotable support having a first end portion and a second end portion, the first end portion of the pivotable support pivotally connected to the first end portion of the seat panel, and a variable resistance support assembly pivotally coupled to the second end portion of the seat panel for selectively raising and lowering the second end portion of the seat panel. The foldable chair can include a back rest affixed to the first end of the variable resistance assembly and a base affixed to the second end of the variable resistance assembly. The variable resistance support assembly can include a housing, with a first spring and a second spring stored therein. The first spring can have a first pressure load and the second spring can have a second pressure load that is less than the first pressure load.
A foldable chair system includes a plurality of the foldable chairs connected to a common support or stand.
The foldable chair and/or foldable chair system can be useful in auditoriums, stadiums, theaters, arenas, conference centers, airports, places of worship (e.g., a church or mosque), education facilities, classrooms, performance halls and the like.
These and other features of the present invention will become readily apparent upon further review of the following specification and drawings.
Similar reference characters denote corresponding features consistently throughout the attached drawings.
A foldable chair, a first embodiment of which is generally referred to by the reference number 10 in
The variable resistance support assembly 60 is compressible to allow the second end portion of the seat panel 40 to be lowered from one or more raised positons in response to a force exerted by the user on the seat panel 40, e.g., during the sitting motion of the user. The variable resistance support assembly 60 is configured to provide at least two levels of resistance as the user sits on the seat panel 40. The variable resistance can include a first resistance and a second resistance. The first resistance can be lesser than the second resistance. The second pressure load or amount of force can be greater than the first pressure load or amount of force. The variable resistance support assembly 60 can include one or more springs, as is known in the art, to provide this type of variable resistance. Thus, for example, the second end portion of the seat panel can be lowered to a first level in response to a first pressure load or amount of force exerted by the user and to a second level in response to a second pressure load or amount force exerted by the user. Accordingly, the degree of resistance provided as the user first lowers the seat panel by starting to sit thereon can be less than that provided as the seat panel 40 nears its horizontal, seating position.
In an embodiment, the variable resistance support assembly 60 can include a telescoping support assembly. The telescoping support assembly can include a housing 61, with a first spring 62 and a second spring 63 stored therein (
In a preferred embodiment, the first spring 62 is a gas spring including a valve or other actuator and a piston. The piston selectively extends and retracts with respect to the housing, as is generally known. The second spring 63 can be a compression spring that is connected to the first spring 62, for example. The compression spring can have a lighter pressure load than the gas spring. As such, when a user begins to sit on the seat panel 40, the initial resistance (provided by the compression spring) is low to allow the seat panel 40 to be easily lowered initially and the subsequent resistance (provided by the gas spring) is greater to provide some damping as the seat panel 40 stops at the seating position. Further, when a user begins to rise from the seat panel 40, the resulting lowered pressure on the gas spring can cause the piston of the gas spring and the attached seat panel to move upward. This upward movement of the piston can facilitate lifting the user and/or assisting the user to stand.
The base 20 can include a base beam 21 spanning a substantial width of the foldable chair 10. In an exemplary embodiment, the base beam 21 can have a length of about 400 mm. The base beam 21 includes a long flat side or facet 21a facing the front of the foldable chair 10, two spaced side facets 21b defining the sides, and rear facets 21c, 21d facing the rear. A foot rest 22 can optionally extend in front of the base beam 21. The foot rest 22 is preferably detachable and includes an elongate L-shaped bracket having a first portion 23 mounted to the rear facet 21c with suitable fasteners 22a and a second portion 24 secured to the bottom of the base beam 21 with similar fasteners 22a. The first portion 23 may be shorter than the second portion 24. The second portion 24 can include a central rib 25 extending upwardly along the length of the second portion 24 to divide the second portion 24 into right and left web sections 24a, 24b.
The base 20 includes a pair of spaced brace legs 26a, 26b which extend to the rear of the base beam 21. The brace legs 26a, 26b stabilize the back of the foldable chair 10. As best seen in
Referring back to
The seat panel 40 can include a rigid or substantially rigid material with the first end portion pivotally mounted to the pivotable support 30, as described previously, and the second or opposite end pivotally mounted to the seat support panel 57 of the variable resistance assembly 60 by a third hinge or pivot 41. The hinged connection of the seat panel 40 to the pivotable support 30 and the variable resistance assembly 60 facilitates folding and unfolding of the seat panel 40, as the seat panel 40 is raised or lowered by the variable resistance assembly 60. The seat panel 40 is suitably dimensioned for most user sizes. In an exemplary embodiment, the seat panel 40 can have a width of about 400 mm. It should be recognized, however, that the size of the seat panel 40, as well as the specific shape, may be varied to accommodate any user and/or desired aesthetic, so long as the seat panel 40 provides the necessary support and functionality. The front side or face of the seat panel 40 is preferably smooth while the back face includes one or more reinforcing ribs 42, 43. These ribs 42, 43 provide reinforcement and enhanced sturdiness to the seat panel 40 for increased strength and durability.
As shown in
The foldable chair 10 can be lightweight, compact and portable. The foldable chair 10 can have any suitable dimensions to provide the desired functionality and space saving features. To assist in transport and handling of the foldable chair 10, the second end of the seat panel 40 can be provided with an elongate handle slot 45. The handle slot 45 may be a straight or curved opening through which the user's hand may extend to lift the foldable chair 10 for repositioning, transport, or operation of the foldable chair 10.
The back rest 50 can include an elongate back support panel 51, and a pair of armrests 52a, 52b extending from opposing ends of the back support panel 51. The back rest 50 can have an opening through which the second end portion of the seat panel 40 may extend when in the first or seating position. Similar to the brace legs 26a, 26b, the armrests 52 can extend at an angle with respect to the back support panel 51 so that they flare outwardly towards the front of the foldable chair 10, in a direction opposite from the brace legs 26a, 26b. The opposite angled extensions of the brace legs 26a, 26b and the armrests 52a, 52b can best be seen in
A back rest support beam 53 extends between each armrest 52 and the seat panel support 57 of the variable resistance assembly 60. As can be seen from
The back rest support beams 53 can be attached to opposite ends of the seat panel support 57. The seat panel support 57 can include a raised, mount section 64 for coupling to the first spring 62. The length of the first spring 62 is predetermined or predefined so that the fully retracted position of the first spring 62 defines the first or horizontal orientation of the seat panel 40 in the seating configuration shown in
Though the back rest 50 has been described as being fixed to the seat panel support 57, it is also contemplated that the back support panel 51 may be configured to pivot with respect to the seat panel support 57 so as to facilitate folding of the back support panel 51 onto the seat surface of the seat panel 30. This may be accomplished with suitable pivot connections and abutment stops. This will further increase the compactness of the foldable chair 10.
The variable resistance assembly 60 can be disposed at an angle, e.g., slightly slanted, with respect to the base, as more clearly shown in
When a user rises from a seated position, the seat panel 40 is conveniently unfolded out of the way without any interference from the foldable chair 10. A plurality of foldable chairs 10 may be stacked back-to-front without occupying too much space because they would be nestled with each other.
Another embodiment of a foldable chair 100 is shown in
The pivotable support 130 is pivotally mounted to the base beam 121 by a first hinge or pivot 131a, and pivotally mounted to the seat panel 140 by a second hinge or pivot 131b. The pivotable support 130 includes one or more reinforcing ribs 132, 133 on a back surface thereof. The pivotable support 130 may be provided with corner abutment stops 134a, 134b disposed near the top left and right corners at the back of the pivotable support 130. These corner abutment stops 134a, 134b support the front end of the seat panel 140 when the seat panel 140 unfolds into the seated configuration and assists in maintaining the horizontal disposition of the seat panel 140.
Unlike the foldable chair 10, the seat panel 140 includes one end pivotally mounted to the pivotable support 130 as described above, and an opposite end pivotally mounted to the back rest 150 by a third hinge or pivot 141. The variable resistance assembly 160 can be directly affixed to the back rest 150, as shown in
The back rest 150 can be an extendable back rest 150. Support for the user's back is provided by an adjustable or slidable back rest panel 154. The back rest panel 154 can be a generally rectangular or square sheet of material with one end pivotally mounted by pivot 141 to the seat panel 140. To facilitate adjustment of the back rest panel 154, the back rest panel 154 includes a pair of elongate, spaced linear guide channels 155 formed on a back surface of the back rest panel 154. A corresponding pair of linear guide rails 153 extends from back rest support beam 152. The guide rails 153 can move vertically within the guide channels 155 to allow the back rest panel 154 to be raised and lowered vertically along the guide rails 153 during the folding and unfolding operations. Moreover, the guide rails 153 and the guide channels 155 enable vertical adjustment of the back rest panel 154 to conform to the desired comfort level of the user. Each guide channel 155 is preferably open-ended at the top and closed at the bottom to enable introduction of the corresponding guide rail 153 during assembly. The top portion of the back rest panel 154 includes an elongate handle slot 154a for the user to grab during unfolding or transport. It is noted that the number of guide channels 155 and the corresponding guide rails 153 may be varied. Moreover, the guide channels 155 and the guide rails 153 may be a dovetail-type connection for additional secure engagement.
A spring mount post 164 extends behind the base beam 121 to receive the variable resistance support assembly 160. Additional features of the variable resistance support assembly 160 include one or more spring spacers 159a and 159b (
A seat support collar 165 is mounted to the housing 161. The seat support collar 165 includes an elongate, radially extending support ledge. The support ledge serves as an abutment stop to support the seat panel 140 when in the seating configuration. This arrangement enables the seat panel 140 to be supported at opposite ends by the corner abutment stops 134a, 134b and the seat support collar 165.
The user can sit comfortably on the seat panel 140 when the seat panel is in the first or seating positon, as shown in
It is to be understood that the present invention is not limited to the embodiments described above, but encompasses any and all embodiments within the scope of the following claims.