This application claims the benefit under 35 U.S.C. §119 of German Utility Model Application No. DE 10 2010 054 887.1, filed Dec. 17, 2010, which is hereby incorporated by reference in its entirety.
The field of the disclosure generally relates to seating furniture, in particular, seating furniture having a free-swinging seat and a free-swinging backrest.
U.S. Pat. No. 4,787,672 of Werner describes a free-swinging chair having an angular seating portion having a seat and a backrest, both configured as one common component. A chair frame for supporting the seating portion has two lateral components having a tubular profile that is bent into an almost Z-type shape to achieve a spring-like effect. To avoid an excess swinging and/or rocking action of the chair, a bar-shaped reinforcement member is disposed on both lateral components, connecting the two end sections of the respective Z-shaped components. In this configuration, any excess sizing of the bent tubular profile can be avoided which, aside from an increase in weight, would also reduce the spring action.
German App. No. DE 41 35 488 A1 of Landgraf describes one means for avoiding excess sizing of the bent tubular profile. For example, Landgraf proposes inserting reinforcement members into the tubular profile before the bending process, which are then subsequently deformed together with the tubular profile and thus contribute to a reinforcement of the profile. However, a reinforcement of this kind runs counter to a desired spring action.
German App. No. DE 297 18 785 U1 of Erhard discloses a chair construction with an immobile seating area and a free-swinging backrest that swings independently of the seating area. The chair frame is constructed of square-steel-bar tubing including two arc-type constructs for holding the backrest in the bottom area of the base points and in the upper area of the backrest.
Accordingly, the present inventors have identified a need for seating furniture having a frame and a free-swinging seat and backrest, where both the seat and backrest swing freely and independently of each other. In addition, the present inventors have identified a need for such a seating furniture that helps avoid excess sizing of the frame.
An article of seating furniture, such as a chair, including a seat, a backrest, and a chair frame. As used herein, the seat defines a main seating direction extending from a rear side of the seat to a front side of the seat. The chair frame includes two laterally spaced apart components, where each of the components includes: a floor strut having opposing front and rear ends, the floor strut arranged in a substantially horizontal orientation parallel to the seating direction; a first leg having opposing upper and lower ends, wherein the lower end adjoins to the rear end of the floor strut, and wherein the first leg extends vertically and in an angular orientation from the rear end of the floor strut; a first fastener disposed on the upper end of the first leg and configured to be coupled to the seat; a second leg having opposing upper and lower ends, wherein the lower end adjoins to the front end of the floor strut, and wherein the second leg extends vertically and in an angular orientation from the front end of the floor strut; and a second fastener disposed on the upper end of the second leg and configured to be coupled to the seat, wherein the upper end of the first leg is proximal to the front side of the seat and the upper end of the second leg is proximal to the rear side of the seat. In addition, the article includes a longitudinally changeable coupling device connected on a first end via at least one first connection site with the first leg and on a second end via at least one second connection site with the second leg, wherein the coupling device is configured in such a way that its maximum length is limited.
In one embodiment, the seat and the backrest of the seating furniture are configured as separate components that are separately fastened to the first and/or second legs of the chair. In such a configuration, it is possible for the seat and the backrest to have the ability of swinging freely and independently of each other. Alternatively, the seat and the backrest can also be configured as a single, unitary component or as separate components connected to each other. In such embodiments, the seat and backrest unit are movably coupled to each other so as to provide a free swinging action of the seat and backrest unit.
In some embodiments, the floor struts and the two legs of each laterally spaced apart component are arranged in a substantially triangular configuration. In such embodiments, bending moments occur mainly in connecting areas between the floor struts and the first and/or second leg (s) inside the chair frame. In particular, in the front, the seat is able to swing downward by the first legs bending forward in the area of the rear end section and the backrest is able to swing rearward by the second legs bending to the rear in the area of the front end section of the floor strut. The floor struts each extend substantially horizontally and are substantially parallel in relation to the floor on which the seating furniture is located. The floor struts can lie directly on the floor, or can be arranged at a distance from the floor supported by base elements and/or base gliding elements. In some embodiments, the floor struts may be connected to each other by at least one cross-member to improve the stability of the chair frame.
In some embodiments, the first legs and the second legs of the chair frame extend, respectively, from the rear and/or front end section of the floor strut. The connection therein can be configured as angular or bent. The angle between the floor strut and the two legs is, as a matter of principle, freely selectable and can be selected as different or identical for the first and second legs in relation to each other. In some embodiments, the two lateral components of the chair frame are configured and disposed in a substantially symmetrical configuration in relation to the main seating direction. In addition, the floor struts may extend essentially parallel in relation to the main seating direction, or may be in an angular orientation having an angular range of approximately plus or minus 15 degrees in relation to the main seating direction to increase the stability of the chair frame and thereby of the entire piece of seating furniture.
In some embodiments, the connection area between the floor struts and the legs, are constructed from a single, unitary component to absorb the bending moments at that location. Alternatively, the floor struts and legs can optionally be configured in one or in multiple pieces. In other embodiments, the first leg is spaced apart from the second leg by a minimum distance of 25 millimeters to ensure that there are no nips on the seating furniture that may cause injury to users as the chair swings back and forth.
In some embodiments, the upper end sections of the first legs are positioned in front of the upper end sections of the second legs, meaning the first legs of the chair frame intersect with the second legs, thus allowing the seat to be mounted in front of the back rest at the first fastening section of the first legs. The first legs of the chair frame therein can extend diagonally relative to the main seating direction, optionally inside or outside of the chair frame. Furthermore, the upper end sections of the first legs may be at least, in part, taken up in the seat, meaning the underside of the seat. In some embodiments, the first fastening section may extend essentially horizontally to provide easier mounting and alignment of the seat on the first fastening section. In other embodiments, the fastening sections of each of the two lateral components of the chair frame may be connected to each other to improve the stability of the chair frame and seating furniture.
In such embodiments, at least one first connecting site of the coupling device may be disposed and arranged in the connection area, which allows for the at least a first connection site to be positioned as closely as possible in relation to the center axis of the seating furniture in the main seating direction and provides a stable and central connection of the first and second legs.
In some embodiments, the seating furniture includes a longitudinally changeable coupling device configured and operable to prevent excess swinging and/or rocking of the seat and the backrest. This coupling device connects the two legs of the lateral components of the chair frame in such a way that the seat is prevented from moving too far away from the backrest.
In some embodiments, the coupling device may be structurally sound such that additional, stronger sizing of the chair frame, which would counteract the free swinging action and also result in a higher weight, is unnecessary. By limiting the free swinging motion of the seat and/or the backrest, the bending moments acting at the bent connections between the floor strut and the respective leg are also limited, whereby the material stresses on the chair frame are also reduced.
In some embodiments, the coupling device has at least one connection site with the first legs of the lateral parts of the chair frame as well as at least one second connection site with the second legs of the lateral parts of the chair frame, meaning the coupling device may include one or more coupling lines that correspondingly require one or several first and/or second connection sites with the legs of the chair frame. The number of first and second connecting sites of the coupling device on the first and second legs, respectively, can optionally be identical or different in relation to each other. In embodiments having two or more coupling lines, the coupling lines may be disposed and/or configured symmetrically with regard to the main seating direction.
In some embodiments, the coupling device is configured and/or disposed in such a way that its connecting direction is substantially parallel in relation to the main seating direction. Alternatively, the coupling device may be angularly aligned in relation to the main seating direction. In embodiments having more than one coupling line, in particular, at least a portion of the coupling lines may be oriented at an angle relative to the main seating direction. The totality of the coupling lines may be configured and disposed symmetrically in relation to the main seating direction, resulting overall in a coupling device with a direction of action in the main seating direction.
The coupling device may be configured and/or disposed in such a way that its connecting direction extends essentially horizontally. In this embodiment, the coupling device may be disposed in very close vicinity to the seat and take up minimal space. In such configurations, the seating furniture may be arranged on a table without the coupling device interfering with the suspension action or becoming damaged due to the suspension action. Alternatively, the coupling device can also be configured and/or disposed in such a way that its connecting direction extends essentially vertically and angularly in relation to the horizontal line. In some embodiments, the coupling device may be taken up at least, in part, in the seat, more specifically in the underside of the seat for additional protection. In other embodiments, the coupling device may be positioned completely underneath the seat.
In some embodiments, the length of the coupling device can be changed between the first and the second legs of the two lateral components of the chair frame and it may be configured to have a limited maximum length. The coupling device may connect the first and second legs of two lateral components with each other and allow—starting with a relaxed resting position of the seating furniture and/or the chair frame (e.g., without any load acting on the piece of seating furniture, for example due to a person sitting thereon)—for a widening of the distance between the first and second connecting sites on the first and/or second legs (“longitudinally changeable”) to the point of a preset maximum distance. Naturally, this applies for the intended use of the seating furniture involving the related typically occurring forces and weights. The disclosure comprises coupling devices that counteract this distance change with a force, as well as coupling devices that freely allow this distance change (to the maximum distance).
In some embodiments, the at least one connecting site of the coupling device is arranged with the first legs of the chair frame in front of and/or above the at least one second connecting site of the coupling device with the second legs of the chair frame. In this positioning of the coupling device, the longitudinal limitation of the coupling device may limit the movement of the seat and/or the backrest.
In some embodiments, the coupling device includes at least one elastic spring element, such as a helical tension spring. In such embodiments, the elastic spring element may dampen the motion of the seat and/or backrest and/or counteract it by the force created by the spring element.
In other embodiments, the coupling device may include at least one rope, which may comprise a steel rope, on which at least one end is equipped with a stop element. While the seating furniture and/or the chair frame is in a resting state, this rope may be loosely routed between the first and the second connection sites. In addition, when the seating furniture and/or chair frame experiences a load, the rope, via the stop element, delimits the length of the coupling device and thereby the distance between the first and second legs of the lateral parts.
In other embodiments, the coupling device may include, in the alternative or in addition to the at least one elastic spring element, at least two rigid elements that engage with each other and are movable in relation to each other. The two rigid elements may be bolts that are guided inside corresponding oblong holes.
In some embodiments, the maximum length of the coupling device may be variably adjustable to provide for adjustment depending on, for example, expected load (such as for a child, adolescent, adult) without having to change or switch out the coupling device. In other embodiments, the chair may be provided with a set of multiple coupling devices (e.g. one for a child, one for an adolescent, and for an adult) that are easily interchangeable depending on the intended use of the chair. In yet another embodiment, the coupling device may be configured in such a way that its minimum length is limited and/or variably adjusted as well. Depending on the coupling device between the two legs of the lateral part of the chair frame, such a minimum length of the coupling device may restrict the motion of the seat and/or backrest.
Additional aspects and advantages will be apparent from the following detailed description of preferred embodiments, which proceeds with reference to the accompanying drawings.
With reference to the drawings, this section describes particular embodiments and their detailed construction and operation. The embodiments described herein are set forth by way of illustration only and not limitation. The described features, structures, and characteristics may be combined in any suitable manner in one or more embodiments. In view of the disclosure herein, those skilled in the art will recognize that the various embodiments can be practiced without one or more of the specific details or with other methods, components, materials, or the like. For the sake of clarity and conciseness, certain aspects of components are presented without undue detail where such detail would be apparent to those skilled in the art in light of the teachings herein and/or where such detail would obfuscate an understanding of more pertinent aspects of the embodiments.
The chair 100 and all of its components may be constructed from any suitable materials. For example, the seat 10 and the backrest 12 may be constructed from plastic or wood. In some embodiments, the seat 10 and/or backrest 12 may include a fabric or cushioned covering to provide additional comfort. In other embodiments, the chair 100 and its components may be constructed from other materials, which may depend on various factors such as weight, cost, durability, and availability of materials. Moreover, the shape, size and material of the seat 10 and the backrest 12 may be selectable by the manufacturer, or by the end consumer, or may be made of standard sizes, shape, and materials common in the industry.
The seat 10 defines a main seating direction 14 that extends from a generally rear side 14a to a generally front side 14b of the chair 100. In the figures, the main seating direction 14 is marked, respectively, at a central axis of the chair 100. The main seating direction 14 results from normal use of the piece of seating furniture in a straight upright sitting position in which the user is seated in the chair 10 at any given time, supported in the back via the backrest 12 and with the gaze straight ahead to the front.
The seat 10 and backrest 12 are fastened or coupled to a chair frame 16. The chair frame 16 includes two laterally spaced apart components or parts, 16a, 16b, configured and disposed symmetrically in relation to the center axis of the chair 100 in the main seating direction 14. In some embodiments, the chair frame 16 and the two components 16a, 16b may be constructed of a rigid metal or metal alloy material, such as high-tenacity steel or other structurally stable materials.
Each of the two lateral components 16a, 16b, include a floor strut 18 that extends essentially horizontally (i.e., parallel to the floor). In such embodiment, the floor struts 18 are aligned parallel or substantially in relation with the main seating direction 14 (see
Referring now to
The chair 100 further includes a first fastening section 26 (see
Moreover, each lateral part 16a, 16b includes a second leg 32 that extends at a third angle 33a and in a vertical direction from a rear end section 18b of the floor strut 18 and upward toward the seat 10. This second leg 32 bends around the front connection area 34 between the floor strut 18 and the second leg 32 allowing the second leg 32 to swing freely to the rear when the chair 100 experiences a load. The phantom lines in
A second fastening section 36 is disposed, respectively, on an upper end section of the second leg 32 that is directed away from the floor strut 18. These second fastening sections 36 may extend essentially horizontally toward the rear 14a (i.e., parallel or substantially parallel to the floor struts 18) of the chair 100, then upward in an arc. The backrest 12 may be fastened on the second fastening sections 36 of the second legs 32. In some embodiments, the second fastening sections 36 of the lateral parts 16a, 16b may be coupled to each other as well to further increase the stability of the chair frame 16.
As illustrated in
The chair frame 16 further includes a coupling device 38. As illustrated in
As shown in
Referring now to
The spring element 40 of the coupling device 38 may counteract any excess distance D (see
In one embodiment, the coupling device 38 may include two or more rigid components that movably engage with each other in order to specify a minimum and/or maximum length of the coupling device 38. For example, in one embodiment illustrated in
In example operation, the coupling device 38 may behave as follows (see
Similarly, the backrest 12 may rock toward the rear side 14a to a second position for the backrest 12′ when the user places weight toward the rear side 14a and presses against the backrest 12, because the second legs 32 of the lateral parts 16a, 16b are able to swing around the front connection areas 34 with the floor struts 18 toward the rear side 14a. This free swinging action by the backrest 12 may be limited by the coupling device 38 that restricts the distance of the second fastening sections 36 of the second legs 32 to the rear side 14a from the first fastening sections 26 of the first legs 22 that essentially remain in the resting position. Since excess swinging and/or rocking of the backrest 12 to the rear side 14a is limited, the possible load with regard to the front connection areas 34 of the chair frame is also limited.
In some embodiments, to exclude and/or minimize injury risk, the first legs 22 are in every position spaced apart in relation to the second legs 32 of the chair frame 16 such that the first and second legs 22, 32 are prevented from touch. An appropriate separation distance between the first and second legs 22, 32 may be selected in such a way that no nips of any kind are created in any position of the chair frame 16, even when the seat 10 tilts forward or the backrest 12 tilts rearward. In some embodiments, the first and second legs 22, 32 may be separated by a minimum distance of approximately 25 mm.
While the coupling device 38 may have a maximum length (e.g., when not deformed or stretched beyond its yield point) to limit free swinging action of the seat 10 and the backrest 12 as previously described, the coupling device 38 may also have a minimum length, which may be preset by arranging and configuring the fastening elements 42, 44 and/or additional elements to a preselected length.
The coupling device 38 may also include a steel rope 50 that is routed through an axial hollow space (not shown) of the spring element 40. The steel rope 50 is routed on the end side through a second opening 54 in the fastening element 42. The steel rope 50 includes at its end a stop sleeve 52 having dimensions larger than the second opening 54 so that the stop sleeve 52 cannot pass through the second opening 54.
When the chair 100 is in its resting state, meaning without load, the steel rope 50 runs through the second opening 54 inside the fastening element 54 lying loosely in the spring element 40, whereby the steel rope 50 is in an inactive state. When a load is placed on the chair 100, such as when a user sits on the chair 100, the first and second legs 22, 32 of the chair frame 16 move, and the connection sites between the legs 22, 32 and the coupling device 38 also move apart countering the force of the spring element 40. This widening of the distance and/or elongation of the coupling device 38 may continue until a point where the stop sleeve 52 makes contact with the fastening element 42 at the end of the steel rope 50. At this point, the spring element 40 can no longer continue stretching, thereby limiting the maximum length of the coupling device 38.
In another embodiment, the coupling device 38 may include the steel rope 50, but not the spring element 40. In such embodiments, the steel rope 50 may similarly limit the maximum length of the coupling device 38 via the stop sleeve 52 abutting against the second opening 54 of the fastening element 42.
With reference to
In such configurations, the first connection sites with the first legs 22 are thus located at a higher position in relation to the struts 18 as compared to the second connection sites with the second legs 32, which are located at a lower position above the struts 18.
In another embodiment, the chair 100 may include the coupling device 38 as described in
In yet another embodiment, the chair 100 may include a seat 10 having a main seating direction 14, which extends from a rear side 14a of the seat 10 to a front side 14b of the seat 10. The chair 100 further includes a backrest 12 proximal to the rear side 14a of the seat 10. a chair frame 16 having two lateral parts 16a, 16b that each include: an essentially horizontally extending floor strut 18; a first leg 22 extending from a rear end 18a section of the floor strut 18 diagonally to the front and upward toward the seat 10; a first fastening section 26 disposed at an upper end section of the first leg 22 that is directed away from the floor strut 18 and configured for fastening the seat 10; a second leg 32 extending from a front end section of the floor strut 18 diagonally to the rear and upward toward the seat 10; and a second fastening section 36 disposed at an upper end section of the second leg 32 that is directed away from the floor strut 18 and configured for fastening the backrest 12; and wherein the upper end sections of the first legs 22 in the main seating direction 14 are positioned in front of the upper end sections of the second legs 32; and a longitudinally changeable coupling device 38 that is connected on one end via at least one first connection site with the first legs 22 of the two lateral parts 16a, 16b and another end via at least one second connection site with the second legs 32 of the two lateral parts 16a, 16b, wherein the coupling device 38 is configured in such a way that its maximum length is limited.
It will be obvious to those having skill in the art that many changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention. The scope of the present invention should, therefore, be determined only by the following claims.
Number | Date | Country | Kind |
---|---|---|---|
10 2010 054 887 | Dec 2010 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
149845 | Sebel | Apr 1874 | A |
3711156 | Bloomfield | Jan 1973 | A |
4522444 | Pollock | Jun 1985 | A |
4618185 | Kaufman | Oct 1986 | A |
4787672 | Werner | Nov 1988 | A |
5649739 | Zapf | Jul 1997 | A |
6837539 | Casey | Jan 2005 | B1 |
20030090139 | Kown | May 2003 | A1 |
20040251729 | Olson | Dec 2004 | A1 |
20050264083 | Ambasz | Dec 2005 | A1 |
Number | Date | Country |
---|---|---|
4135488 | Apr 1993 | DE |
29718785 | Dec 1997 | DE |
100 16 359 | Oct 2001 | DE |
10 2007 052 937 | May 2009 | DE |
1 600 083 | Nov 2005 | EP |
1350571 | Jan 1964 | FR |
WO 2010114527 | Oct 2010 | WO |
Entry |
---|
European Search Report, European Patent Application No. 11009744.1, Apr. 2, 2012, 7 pages. |
Number | Date | Country | |
---|---|---|---|
20120153700 A1 | Jun 2012 | US |