Chair with tilting seat

Abstract

A chair with a tilting seat and a back piece carried by a back support, wherein a bearing block is provided, in which an eccentric cam can rotate, a rod passes eccentrically through the eccentric cam and is connected to it without the ability to rotate, and at one end it is connected to a handle by which it can be turned. An arm is provided in which the rod is mounted such that it can turn. The tilting of the seat can be adjusted in more than just two positions and the adjustments are secured against unintentional change. The bearing block is provided on the back support and the arm on the bottom side of the seat, a detent sleeve is joined to the aforementioned end of the rod, unable to rotate, but able to slide along the rod between a first and a second position. The detent sleeve in the first position engages by detent apparatus fashioned on it with mating detent apparatus on the seat, in the second position, the detent apparatus on the detent sleeve are disengaged from the mating detent apparatus on the seat and spring-loaded against the first position. The handle is joined to the detent sleeve without being able to rotate.

Description

BRIEF EXPLANATION OF THE FIGURES

The invention shall now be explained in greater detail by a sample embodiment in conjunction with the drawings.

FIG. 1 is a side view of a chair according to the invention with a lowered seat;

FIG. 2 is a side view as shown in FIG. 1, but with a greatly tilted seat;

FIG. 3 is a rear view of the chair and, separately depicted, the parts forming the axis of the eccentric bearing, according to the invention;

FIG. 4 is an exploded view of the parts shown in FIG. 3; and

FIG. 5 is a partial sectional view of an eccentric bearing of the invention.

DETAILED DESCRIPTION OF THE PRESENT INVENTION

The main parts of the chair shown in FIG. 1 and FIG. 2 are a seat 1, a back 2 with back support 5, a tilt mechanism in a housing 4 and a standing column 3. The back support 5 basically consists of two roughly parallel links, of which only the front one is recognizable in FIGS. 1 and 2.

Seat 1 and back support 5 with back 2 are forcibly coupled in regard to tilting in familiar fashion through the tilt mechanism in the housing 4 and the linked connection of the seat 1 to the back support 5. When the back 2, and with it the back support 5, is tilted backward, the seat is also lowered.

The linked connection of the seat to the back support 5 in its rear region comprises the elements 6-22, which are shown in detail in FIGS. 3-5. Insofar as the terms “left” or “right” are used hereafter, they refer to the representation in FIGS. 3-5.

Two arms 6 are formed at the bottom side of the seat 1, serving to mount a rod 8, which for the major portion of its length is configured as a hexagon (or also with a different prismatic shape). The rod 8 is inserted through bearing eyes in the arms 6, each time bearing sleeves 11 filling in its hexagonal shape on the outside to form a round cross section. The direction of insertion of the rod 8 is indicated by an arrow. In the inserted state, the rod 8 is secured by a securing ring 12 in the direction of insertion on the other side of the right arm 6. A cap 13 covers the end of the rod 8 and the securing ring 12.

In the area of its left end, before the left arm 6 in the insertion direction, the rod 8 is provided with a detent sleeve 14 and a guide sleeve 15. The guide sleeve 15 is arranged directly on the rod 8 in the detent sleeve 14 and extends along an end region of the rod 8, in which it has a round cross section, and also along a region of the rod 8 with the aforementioned hexagonal cross section. Because of the hexagonal cross section, the guide sleeve 15 is joined to the rod 8 and cannot rotate. Guide sleeve 15 is also defined on rod 8 in the lengthwise direction, namely, by a securing ring 16 on one side and by an end stop 17 on the other side, resulting from the change in cross section between round and hexagonal shapes.

The detent sleeve 15 is also supported by its right end segment against the guide sleeve 15, where both the outer cross section of the guide sleeve 16 and the inner cross section of the detent sleeve 14 are hexagonal, so that the detent sleeve 14 is joined to the guide sleeve 15, and by this also to the rod 8 without the ability to rotate.

From the aforementioned end segment, the detent sleeve 14 extends to the left, at first overlapping the guide sleeve 15 with a spacing, to beyond the left end of the rod 8. A compression spring 18 is arranged between the detent sleeve 14 and the guide sleeve 15, which thrusts to the right against a shoulder 19 of the detent sleeve 14 and to the left against a molded lug 20 on the guide sleeve 15. The molded lug 20 is in contact with the inner wall of the detent sleeve 14. Thanks to this configuration, the detent sleeve 14 can be moved a bit to the left on the rod 8 from its position shown in FIG. 5 against the action of the compression spring 18, sliding on the guide sleeve 15 and being led through this.

At its left free end, the detent sleeve 14 terminates in a handle 7, which is inserted into it and locked in it without the ability to turn. In this way, the rod 8 can be turned by the handle 7.

Two bearing blocks 10 are at the top side of the two links of the back support 5, in each of which an eccentric cam 9 is mounted and can turn. The eccentric cams 9 are eccentrically pierced by the rod 8, which is joined to them without the ability to rotate.

The nonrotating connection of the rod 8 to the eccentric cams 9 is achieved in turn by the configuring of the rod 8 and the openings through which it passes in the eccentric cams 9 as hexagons.

As is especially evident from FIG. 1 and FIG. 2, by turning the handle 7 one can move the passage of the rod 8 through the bearing blocks 10 downward (FIG. 1) or upward (FIG. 2). In this way, the tilting of the seat 1 becomes more flat (FIG. 1) or more steep (FIG. 2), while the tilting of the back 2 stays the same.

At a position of the rod 8 in bearing block 10 in an upper position (e.g., per FIG. 2), the weight of the user would rotate the eccentric cams 9 into the lowest position (e.g., per FIG. 1), if no countermeasures were provided.

These countermeasures, according to the invention, comprise a locking mechanism. For this, the detent sleeve 14 is provided with detent apparatus that interact with mating detent apparatus on the seat 1. In the chosen example, the detent apparatus have the shape of several notches or detent teeth 21 distributed about the circumference on the right end surface of the detent sleeve 14. The mating detent apparatus comprise a locking cog 22, arranged on the underside of the seat and projecting downward, which engages between the detent teeth 21 of the detent sleeve 14 when it is located in the position shown in FIG. 5 and defines this as well as the rod 8 and, through the latter, the eccentric cams 9 in a certain position of rotation.

The position of rotation can be changed if the detent sleeve 14 is pulled out by the handle 7 to the left against the action of the compression spring 18 into a position in which the locking cog 22 is disengaged from the detent teeth 21. When the handle is released, the compression spring 18 brings the detent sleeve 18 back into engagement with the locking cog 22, possibly after a change in its position of rotation.

Since the guide sleeve 15 and compression spring 18 are arranged in the detent sleeve 14, these parts are not visible. Neither is the locking cog 22 visible from normal viewing height. The end of the rod 8 is covered by the cap 13, so that the eccentric mounting as a whole gives an aesthetically pleasing impression.

What has been described above are preferred aspects of the present invention. It is of course not possible to describe every conceivable combination of components or methodologies for purposes of describing the present invention, but one of ordinary skill in the art will recognize that many further combinations and permutations of the present invention are possible. Accordingly, the present invention is intended to embrace all such alterations, combinations, modifications, and variations that fall within the spirit and scope of the appended claims.

Claims

1. A chair comprising a tilting seat and a back support for carrying a back piece, wherein said chair further comprising a bearing block, a rotatable eccentric cam, a handle and a rod passing eccentrically through the eccentric cam, said rod being connected to said eccentric cam without the ability to rotate, and being connected at one end to said handle for turning said rod, and wherein an arm is provided in which the rod is mounted such that said rod can be turned, whereinthe bearing block is provided on the back support and the arm is provided on the bottom side of the seat;said chair further comprising a detent sleeve joined to said one end of the rod, said detent sleeve being unable to rotate but able to slide along the rod between a first and a second position, a first detent apparatus and a second mating detent apparatus, wherein said detent sleeve in the first position engages with said second mating detent apparatus on the seat by said first detent apparatus fashioned on said detent sleeve;in the second position, the first detent apparatus on the detent sleeve are disengaged from the second mating detent apparatus on the seat and spring-loaded against the first position; andthe handle is joined to the detent sleeve without being able to rotate.

2. The chair according to claim 1, wherein said first detent apparatus is selected from the group consisting of at least one notch and at least one detent tooth provided on said detent sleeve at the end surface.

3. The chair according to claim 2, wherein said first detent apparatus is selected from the group consisting of a plurality of notches and a plurality of detent teeth provided on said detent sleeve at the end surface.

4. The chair according to claim 1, wherein said second mating detent apparatus comprise a locking cog projecting downward from the underside of the seat.

5. The chair according to claim 1, further comprising a compression spring for spring-loading of the detent sleeve, thrusting at one end toward the first position against the detent sleeve and at the other end at least indirectly against the rod.

6. The chair according to claim 5, further comprising a guide sleeve secured on the rod, wherein said guide sleeve is not able to turn or slide, and wherein the compression spring thrusts against said guide sleeve.

7. The chair according to claim 6, wherein said detent sleeve overlaps the compression spring, the guide sleeve and the free end of the rod.

8. The chair according to claim 7, wherein said handle is joined to the detent sleeve on the other side of the free end of the rod.