This application claims priority to prior-filed Italy application Serial No. MI2007A 000719, filed Apr. 6, 2007, incorporated by reference herein.
The present invention relates to a tilting device for a reclining chair having a adjustable seat.
As used herein, the term “adjustable seat” indicates any seat of the type of a chair or armchair particularly for an office or a writing desk, comprising a seat surface and a back associated by relative mounting bodies, to a common support base in turn connected to a pedestal (e.g., for height adjustment) or ground mounting post.
Adjustable seats are known in which the back or seat surface, or their respective mounting bodies, are tiltable relative to the support base independently or dependently of each other, for example using tilting devices comprising lever mechanisms.
In one aspect, an embodiment summary of the present invention is to provide a tilt device for adjustable seats that is easy for users to use and that allow modifications that are simple and without forcing the angle of the back and the seat surface.
A tilting device for a reclining chair includes an adjustable seat. In one embodiment, the adjustable seat comprises a support base that can be associated with at least one pedestal, a mounting body for the seat back which is rotatably articulated on the support base around a first axis essentially orthogonal to the pedestal, a mounting plate for the seat surface which has its front end and back end articulate rotatably around a respective hinge axis generally parallel to the first axis to the support base and mounting body, respectively, elastic means of thrust acting along one direction generally orthogonal to the first axis and having a first end acting on the support base and a second end acting on the mounting body and the blocking means of the mounting body in at least two different angles relative to the support base and acting in opposition to the elastic means of thrust, the mounting plate assuming two corresponding different angles.
Further characteristics and advantages of the invention will be found in the specification of one or more embodiments of the device according to the invention, illustrated by way of non-limiting examples of the attached drawings, in which:
With reference to the Figures, a tilting device for a reclining chair is indicated generally by reference numeral 1.
In one embodiment, device 1 has a support base 2 provided with a connection seat 3 with at least one pedestal 30. A mounting body 4 for the seat back is rotatably articulated on the support base 2 around a first axis 5a which is defined by a first pivot 5 which has its opposite ends fastened to the two sides of the support base 2. The first axis 5a, that is the first pivot 5 is, in the use configuration of the seat, parallel to the round and orthogonal to the pedestal 30.
Device 1 also has a mounting plate 6 to the lower side of the seat surface which has a front end 7 and back end 8. The front end 7 and the back end 8 are rotatably articulated around a respective hinge axis, 9a and 10a, essentially parallel to the first axis 5a respectively to the support base 2 and the mounting body 4. The hinge axis 9a of the front end 7 of the mounting plate 6 is defined by a pair of second pivots 9 solidly connected to the mounting plate 6 and housed in corresponding seats 11 machined into the sides of the support base 2. The hinge axis 10a of the back end 8 of the mounting plate 6 is defined by a third pivot 10 which is movably supported in corresponding buttonholes 12 machined in the sides of the mounting body 4.
Device 1 further has an elastic means of thrust 13 acting along one direction essentially orthogonal and obliquely to the first axis 5a and having a first end acting on the support base 2 and a second end acting on the mounting body 4. The mounting body 4 of the back and, therefore, the mounting plate 6 of the seat surface articulated to it, assume at least two different angles relative to the support base 2: a first position, in which the mounting body 4 and the mounting plate 6 are essentially parallel to the ground (
Device 1 has a blocking means 14, acting contrary to the elastic means of thrust 13, of the mounting body 4 in the two different angles that can be operated by an actuator 15 which can be operated by a user. The elastic means of thrust 13 comprise a telescopic track consisting of a first tubular element 16 within which is slidingly guided a second tubular element comprising a rod 17, between the first tubular element 16 and the rod 17 acting on a compression spring 18. the first tubular element 16 has the end opposite to the one connected with the rod 17 hinged around a fourth pivot 19 fastened to the mounting body 4 and generally parallel and staggered relative to the first pivot 5. The second end of the elastic means of thrust 13 comprises the head 16a of the first tubular element 16 articulated around the fourth pivot 19. The rod 17 has one end inserted slidingly inside the first tubular element 16 and the opposite end connected to the support base 2 through a device 20 adjusting the compression state of the spring 18.
The blocking means 14 has a stop surface 21 of the second end of the elastic means of thrust 13, that is, of the head 16a of the first tubular element 16, which is defined overhanging from the bottom of the support base 2.
On the stop surface 21 a stop insert 22 is guided slidingly for the second end of the elastic means of thrust, that is, for the head 16a of the first tubular element 16.
The stop insert 22 is movable in sliding along a direction generally orthogonal to the action direction of the elastic means of thrust 13 between an extended configuration and a retracted configuration.
In the extended configuration, the stop insert 22 is interposed between the stop surface 21 and the head 16a of the first tubular element 16, the mounting body 4 and, therefore, the mounting plate 6, being in the first angle relative to the support base 2.
In the retracted configuration, the stop insert 22 is retracted and the head 16a of the first tubular element 16 rests on the stop surface 21, the mounting body 4 and, therefore, the mounting plate 6, being in the second angle relative to the support base 2.
The stop surface 21 in one configuration, is defined integral with the support base 2 close to the seat 3.
The stop surface 21 extends along a transverse plane in the action direction of the elastic means of thrust 13 and defines a sliding plane on which the stop insert 22 is guided in rectilinear motion alternative between the extended configuration and the retraced configuration.
In one embodiment represented in
In the embodiment represented in the attached
The follower 25 has a window 29 machined in the stop insert 22 and in which is movably inserted in the first arm 27 on which is defined the track profile 24. The upper potion of window 29 has a runner slidingly supported on the ramp machined on the first arm 27.
In another embodiment represented in
With particular reference to one embodiment represented in
As a result of the thrust action of the spring 18, the first tubular element 16 is thrust at a distance relative to the rod 17 until its head 16a no longer rests on the stop surface 21. The first tubular element 16, by means of the pivot 19, imparts to the back mounting body 4 a rotation around the first pivot 5. The mounting body 4 and, therefore, the mounting plate 6 articulated to it revolve in the second angle in which they are both tilted forward and toward the ground (
With reference to another embodiment represented in
As a result of the thrusting action of the spring 18, the first tubular element 16 is thrust at a distance relative to the rod 17 until its head 16a rests on the stop surface 21. The first tubular element 16, by means of the pivot 19, imparts to the mounting body 4 of the back a rotation around the first pivot 5. The mounting body 4 and, therefore, the mounting plate 6 articulated to it rotate in the second angle in which both are titled forward and toward the ground (see
Various embodiments of the tilting device for a reclining chair are subject to many modifications and variants, all of which fall within the scope of the inventive concept. Also all of the details can be replaced by other technically equivalent elements. In practice, the materials used, as well as the dimensions and contingent shapes can be any ones according to needs and the state of the art.
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