EP3437520A1 - Rocking mechanism - Google Patents

Abstract

The invention relates to a rocking mechanism (10) for a chair (100), comprising a base support (1) having a cone seat (2) by means of which it can be placed on a chair column (3) of the chair (100) Seat support (4) which is pivotally connected to the base support (1) via a transverse to the chair longitudinal direction (9) extending pivot axis (8), wherein the seat support (4) is pivotable both to the rear and to the front, and at least one Spring element (18, 28) which cooperates with the seat support (4) on the one hand and with the base support (1) on the other hand, for returning the seat support (4) from a pivoted position to an initial position, wherein the at least one spring element (18, 28) Seen in the chair longitudinal direction (9) is arranged exclusively on one side of the pivot axis (8).

Description

The invention relates to a rocking mechanism and a chair with a rocking mechanism, preferably a visitor or conference chair.

Rocking mechanisms are known from the prior art. These are comparatively simple assemblies in the seat base of chairs, in which the backrest support is rigidly connected to the seat support, the seat or the frame of the chair. The resulting
Seat carrier backrest support combination is pivotable by means of the tilt mechanism about a transverse to the chair longitudinal direction pivot axis to the rear, when the user of the chair leans against the backrest. Such rocking mechanisms are often used instead of synchronous mechanisms in inexpensive visitor or conference chairs to realize there a simple Wippfunktion.

Nevertheless, such Wippmechaniken are often very simple, but they are, mostly for cost reasons, not designed to save space. On the contrary, they often require a comparatively large space, so that they can be seen as a clearly visible from the outside assembly in the seat base. This results in disadvantages, both aesthetically and constructively.

An object of the invention is to avoid these disadvantages and to provide a chair which has a small-scale rocking mechanism. Preferably, the Wippmechanik should also be structurally simple design at the same time.

This object is achieved by a rocking mechanism according to claim 1 and a chair according to claim 11. Advantageous embodiments of the invention are specified in the subclaims.

The rocking mechanism according to the invention therefore comprises a base support having a Konusaufnahme, by means of which it can be placed on a chair column of the chair, and a seat support which is pivotally connected to the base support via a transverse to the chair longitudinal direction pivot axis, wherein the seat support both after is pivotable at the rear as well as towards the front. In addition, the Wippmechanik comprises at least one spring element which cooperates with the seat support on the one hand and with the base support on the other hand, for returning the seat support from a pivoted position to a starting position. According to the invention, the at least one spring element seen in chair longitudinal direction is arranged exclusively on one side of the pivot axis.

Since according to the invention spring elements are provided exclusively on one side of the pivot axis, a small-sized and at the same time constructively comparatively simply constructed rocking mechanism can be provided. The rocking mechanism according to the invention is therefore particularly advantageous when only a limited space is available and / or cost reasons, a particularly simple structure is desired.

The proposed rocking mechanism differs from the one-sided pivoting mechanisms known from the prior art, characterized in that a pivoting (lowering, tilting, rocking or tilting) of the seat support in the manner of a rocker on both sides, ie both backwards and forwards possible is.

Of the known from the prior art both sides pivotable mechanisms, the proposed tilt mechanism differs by the one-sided arrangement of the spring elements relative to the position of the pivot axis. While in the known bilaterally pivotable rocker mechanisms design-related spring elements must always be provided on both sides of the pivot axis, i. Seen in the chair longitudinal direction in front of and behind the pivot axis, this is not the case with the rocking mechanism according to the invention. The proposed construction allows the use of spring elements exclusively on one side of the pivot axis, without this leading to a reduced functionality of the rocking mechanism. In addition, in the rocking mechanism according to the invention, a single spring element or a single spring assembly is sufficient, while in the known pivoting on both sides rocking mechanisms a single spring element is never sufficient, but instead always several, locally separated from each other, clearly spaced spring elements are required to the to achieve the desired rocking function.

The two-sided pivoting with only one-sided arrangement of the spring elements is realized in a first preferred embodiment of the invention in a structurally particularly simple manner that a double-acting spring is used, so a claimable both train and pressure or resilient spring. In a second preferred embodiment of the invention, this is accomplished by arranging a spring in a spring retainer moved with the seat support having a plurality of mutually movable parts, at least part of the spring retainer cooperating with the base support.

Fig. 1

einen Stuhl mit einer Wippmechanik,

Fig. 2

ein erstes Ausführungsbeispiel der Wippmechanik (Ausgangsstellung),

Fig. 3

ein zweites Ausführungsbeispiel der Wippmechanik (Ausgangsstellung),

Fig. 4

die Wippmechanik aus Fig. 3 in einer nach vorn verschwenkten Stellung,

Fig. 5

die Wippmechanik aus Fig. 3 in einer nach hinten verschwenkten Stellung,

Fig. 6

ein Diagramm zur Federrate des ersten Ausführungsbeispiels der Wippmechanik,

Fig. 7

ein Diagramm zur Federrate des zweiten Ausführungsbeispiels der Wippmechanik.

Further advantageous embodiments of the invention will be explained below in connection with two embodiments of the invention with reference to the drawings. Hereby show:

Fig. 1

a chair with a rocking mechanism,

Fig. 2

a first embodiment of the rocking mechanism (initial position),

Fig. 3

A second embodiment of the rocking mechanism (starting position),

Fig. 4

the rocking mechanism off Fig. 3 in a forward pivoted position,

Fig. 5

the rocking mechanism off Fig. 3 in a pivoted backward position,

Fig. 6

a diagram of the spring rate of the first embodiment of the rocking mechanism,

Fig. 7

a diagram of the spring rate of the second embodiment of the rocking mechanism.

All figures show the invention not to scale, while only schematically and only with their essential components. The same reference numerals correspond to elements of the same or comparable function.

The in Fig. 1 illustrated conference chair 100 has a rocking mechanism 10, wherein the rocking mechanism 10 with respect to their Central longitudinal plane, which concerns the actual kinematics, is mirror-symmetrical. In that regard, it should be assumed in the following description of both sides in pairs existing construction elements of the rocking mechanism 10 in the rule.

The rocking mechanism 10 comprises a fixed base support 1, which is set by means of a cone seat 2 on the upper end of a chair column 3 of the conference chair 100. The immovable base support 1 is constructed substantially plate-shaped. Above the base support 1, a seat support 4 is provided, which is also constructed substantially plate-shaped and is connected with its rear end directly or indirectly with a backrest support 5. The seat 6 carried by the seat support 4 and the backrest 7 carried by the backrest support 5 are only in Fig. 1 indicated, but omitted in the other figures for the sake of clarity.

The seat support 4 is pivotally connected to the base support 1 via a pivot axis 8 in the chair longitudinal direction 9, the front area of the base support 1. This is preferably the only pivot axis 8, which connects the seat support 4 with the base support 1. Preferably, this pivot axis 8, apart from the at least one spring element, the only connection between seat support 4 and base support 1. The entire seat 6 together with the backrest 7 relative to the fixed to the chair column 3 base support 1 forward and backward be pivoted. A pivoting about the single pivot axis 8 forward means tilting the seat support 4 and thus all connected to the seat support 4 components forward, in other words lowering the front portion of the seat support 4 and the Sitzträgervorderkante 12. pivoting about the single pivot axis 8 to the rear means a tilting of the seat support 4 and thus all connected to the seat support 4 components to the rear, in other words a lowering of the rear portion of the seat support 4 and the seat carrier trailing edge 13. In the FIGS. 2 and 3 is shown a starting position in which the seat support 4 assumes a substantially horizontal position. Fig. 4 shows a rocking mechanism 10 in a maximum forward pivoted position, Fig. 5 shows this Wippmechanik 10 in a maximum rearwardly pivoted position.

According to a preferred embodiment of the invention, the pivot axis 8 seen in chair longitudinal direction 9 is arranged eccentrically relative to the base support 1. This results in an asymmetrical structure of the mechanism 10 in the chair longitudinal direction 9, i. an asymmetrical arrangement of the pivot axis 8 and / or the spring elements. In contrast to the rocking mechanisms known from the prior art, in which the main pivot axis is necessarily centered, the eccentric arrangement results in increased sitting comfort for the user. If one starts from an approximately central arrangement of the cone seat 2 in the base support 1, the pivot axis 8 is accordingly arranged in the chair longitudinal direction 9 next to the cone seat 2. By this staggered arrangement of the pivot axis 8, the height of the tilt mechanism 10 can be kept low. In comparison to such Wippmechaniken in which the pivot axis 8 is provided directly above the cone seat 2, this results in a particularly flat design.

According to a preferred embodiment of the invention, the pivot axis 8 seen in the chair longitudinal direction 9, relative to the base support 1, arranged in the front region of the mechanism 10 or in the front half of the mechanism 10 or in other words closer to the front end 14 of the base support 1 as If one starts from an approximately central arrangement of the cone holder 2 in the base support 1, one could also say that the pivot axis 8 is arranged in the chair longitudinal direction 9 in front of the cone seat 2. The advantage of the arrangement of the pivot axis 8 in the front region is that no or at least only a comparatively small lifting of the seat support leading edge 12 takes place during a pivoting of the seat backrest combination to the rear. In addition, the space of the mechanism 10 is better utilized. The available space can optionally be used for other functions of the mechanism 10. In addition, due to the asymmetrical arrangement of the pivot axis 8 with respect to a symmetrical arrangement more design options for the design of the chair 100th

In the case of the rocking mechanisms 10 illustrated in the figures, the position of the pivot axis 8 of the mechanism 10 is defined, for example, by a bolt 16 firmly connected to the seat support 4, which is mounted in two bearings 17 provided on the base support 1. The bearings 17 are offset from the cone seat 2 arranged such that the transverse to the chair longitudinal direction 9 pivot axis 8 seen in the chair longitudinal direction 9 next to the cone seat 2, namely in front of the cone seat 2 is arranged. Thus, there is an off-center arrangement of the pivot axis 8.

According to a preferred embodiment of the invention, the spring elements 18, 28, seen in chair longitudinal direction 9, arranged behind the pivot axis 8. In conjunction with a seen in chair longitudinal direction 9 in front of the cone seat 2 arranged pivot axis 8, the spring elements 18, 28 thus located next to the cone seat 2, preferably behind the cone seat. 2

Hereinafter, a first embodiment of the invention Wippmechanik 10 will be described in more detail.

According to a preferred embodiment of the invention, the spring element 18 or, in the case of the number of spring elements 18 which are supported with their spring ends on the base support 1 and on the seat support 4 are double-acting, that is to say both tensile and compressive Springs 18, see Fig. 2 , These have a spring end shape adapted to the application. It has proven to be particularly advantageous when the spring element 18 is connected with its spring ends 19 via screwed-in spring receiving elements 20 to the base support 1 and / or the seat support 4. These screwed-in mounting elements (eg in the form of threaded plugs) may be separate components or components integrated into the base carrier 1 or the seat carrier 4.

Instead of screwed spring ends 19 and springs 18 can be used with rolled mounting elements for mounting to base support 1 and seat support 4. When screwed or rolled spring ends 19 not all turns of the spring 18 are resilient; accordingly, the total number of turns must be adjusted.

This embodiment of the invention is characterized by a particularly simple structure, since only a single spring element 18, which is arranged between the seat support 4 and base support 1 in the central longitudinal plane of the mechanism 10 is necessary, or a single spring assembly whose springs, for example, right and left of the central longitudinal plane, but at the same distance from the pivot axis 8, are arranged.

In the zero position (initial position), in which the seat support 4 is generally arranged substantially horizontally, no spring tension acts on the seat support 4. The spring element 18 used is therefore not biased. When passing through the zero position, the user of the chair 100 therefore also feels no appreciable resistance or the like. In other words, there is no tactile zero crossing during the rocking of the rocking mechanism 10. This represents a desired property of the rocking mechanism 10 in some applications.

The pivoting forward or backward is limited either by the spring 18 itself, for example, because their maximum elongation or compression is reached or the spring rate is chosen such that additional mechanical stops are not required; or the tilting or tilting movement of the seat support 4 or the seat carrier backrest support combination is effected by additional mechanical stops 23, 24 on seat support 4 and / or base support 1.

The double-acting spring 18 is preferably a double-acting helical spring, more specifically a cylindrical helical spring which can be subjected to tension and compression. It is a spring 18 with non-adjacent turns. In other words, the pitch of the spring must be so large that adjacent turns (viewed from the side) have a suitable minimum distance 21 from one another to provide the desired functionality.

In the simplest case, the spring rate 22 of the spring 18 and the spring assembly is the same at train and pressure, so that both at a Pivoting the seat support 4 forward and at a pivoting of the seat support 4 to the rear always the same pivoting resistance is present and noticeable to the user of the chair 100, see Fig. 6 , But it is also possible to use a spring element 18, in which the spring rate differs in a tensile load from the spring rate at a pressure load.

Alternatively to the coil springs 18 shown herein, other suitable, i. double-acting spring elements are used, for example, solid blocks of elastic plastic material, which are fastened via suitable connections to seat support and base support or placed between them.

Hereinafter, a second embodiment of the invention Wippmechanik 10 will be described in more detail.

According to a preferred embodiment of the invention, the at least one spring element 28 in a pivotally mounted on the seat support 4 and thus mitbewegten with the seat support 4, the spring 28 embracing spring mount 25 (spring holding and spring receiving device) placed, see Fig. 3 , This spring receptacle 25 has a plurality of mutually movable parts 26, 27, wherein at least one (outer) part 26 of the spring seat 25 cooperates with the base support 1. In other words, the spring element 28 is supported with its two ends 29, 30 in the spring seat 25, namely on different parts of the spring seat 25, which are those parts 26, 27 of the spring seat 25, which are movable relative to each other. By a movement of these parts 26, 27 to each other, the spring 28 is acted upon. In the version shown here acts it is at the spring 28 to a compression spring, more precisely a helical compression spring.

The spring ends 29, 30 act on spring plates 31, 32 (or other suitable components), which are designed as components of the respective spring receiving parts 26, 27 and which are not directly connected to the seat support 4 with the base support 1. In this case, the spring 28 presses with its upper, facing the seat support 4 end 29 against the one part 26 of the spring retainer 25, while at the same time presses with its lower, facing base plate 1 end 30 against the other part 27 of the spring retainer 25. The two parts 26, 27 of the spring seat 25 are connected to each other exclusively via the spring 28 and coupled. At the same time, caused by a pivoting of the seat support 4 starting from its initial position to the front or rear, the position of both spring ends 29, 30 and spring plate 31, 32 in the space between the base support 1 and the seat support 4 changeable. In other words, both spring plates 31, 32 are movable, namely in the direction of the base support 1 or seat support 4 to and from the base support 1 or seat support 4 away, i. their position in the space between base support 1 and seat support 4 is changeable.

According to a preferred embodiment of the invention, both the movement of the spring receiving parts 26, 27 to each other and the movement of the spring retainer 25 relative to the base support 1 by stops 34, 35 are limited.

On the one hand, this means that the parts 26, 27 of the spring seat 25 are designed to be movable relative to one another, wherein this relative movement is limited by the fact that these parts 26, 27 abut each other. In particular, suggests that directed to the base support 1 lower spring end 30 receiving, from the lower end 30 of the spring 28 in the direction of the base support 1 acted upon lower spring plate 32 and that (inner) spring receiving part 27, which includes this lower spring plate 32, to form a first stop 34 against a movable movable part 36 of the seat support 4, see Fig. 3 and 4 , whereby a stationary first stop 34 is formed. This first stop 34 prevents a (further) change in position of the lower spring end 30 in the direction of the base support 1. In this case, this part 36 of the seat support 4 in its function as a driver of the lower spring plate 32 at the same time be regarded as part of the spring seat 25. The lower spring plate 32 or spring receiving part 27 comprising this spring plate 32 is connected to a plunger 37 which points in the direction of the seat support 4 and strikes the driver 36 in order to realize the first stop 34. The driver 36, which can also be regarded as part of the seat support 4, is articulated, namely mounted pivotably about a transverse axis 33 on the seat support, connected to the seat support 4 such that it always hangs vertically downwards in the direction of the base support 1. This first stop 34 prevents (further) movement of the plunger 37 and thus of the lower spring plate 32 down in the direction of the base support 1 and thus at the same time a movement of the driver 36 down. In order to realize the first stop 34, the plunger 37 connected to the lower spring plate 32 protrudes upward into the driver 36, the plunger 37 having a stop surface 38 pointing downwards in the direction of the base support 1, against which an upwardly directed seat support 4 Stop surface 39 of the driver 36 abuts.

On the other hand, this means that when a pivoting of the seat support 4, the spring retainer 25 moves relative to the base support 1, wherein spring retainer 25 and base support 1 under training defined stops 34, 35 abut each other. In particular, suggests that directed to the seat support 4 upper spring end 29 receiving, acted upon by the upper end 29 of the spring 28 in the direction of seat support 4 upper spring plate 31 and that (outer) spring receiving part 26 which includes these upper spring plate 31, to form a second stop 35 against a stationary, so fixed and immovable part 41 of the base support 1, whereby a stationary second stop 35 is formed. This second stop 35 prevents a (further) change in position of the upper spring end 29 in the direction of the seat support 4. A tilting of the seat support 4 forward is then only possible if the lower spring end 30 is moved away from the base support 1, by moving it from the entrained on the seat support 4 driver 36 is taken. To realize the second stop 35, the stop element 41 embodied as part of the base support 1 or firmly connected to the base support 1 protrudes upward from the upper side of the base support 1 and has a stop surface 42 facing downwards in the direction of the base support 1. Against this proposes an upward in the direction of the seat support 4 facing stop surface 43 of the upper spring plate 31 and the corresponding spring receiving part 26th

Unlike in the first embodiment, the at least one spring element 28 is biased here. The bias of the at least one spring element 28 is provided such that in the non-pivoted state of the seat support 4 both stops 34, 35 are effected simultaneously and thereby a zero position (initial position) is defined, see Fig. 3 from which the seat support 4 can be pivoted or tilted. To leave this defined zero position, force must be applied against the spring 28. The user of chair 100 therefore feels both ingesting and exiting Initial position, which is predetermined by the construction described as a neutral rest position.

When pivoting the seat support 4 forward, so tilting the front edge 12 of the seat support 4 about the pivot axis 8 down toward base support 1, the seat support 4 removes the lower spring plate 32 of the base support 1, wherein the upper spring plate 31 and thus the second stop 35 of the spring seat 25 on the base support 1 serves as an abutment for the application of the spring element 28. In other words, the seat support 4 pulls over the driver 36 and thus the first stop 34, the plunger 37 with the lower spring plate 32 against the force of the spring 28 upwards. In this case, the spring element 28 is acted upon and leaves the neutral equilibrium position. As a result, the spring 28 is compressed against the upper spring plate 31, see Fig. 4 ,

When pivoting forward so both stops 34, 35 are effected simultaneously, so in addition to the ortsunveränderlichen second stop 35 and the first stop 34 which is moved with its two stop surfaces 38, 39 in this case in the direction of seat support 4 and the lower spring plate 32nd entraining.

Upon pivoting of the seat support 4 to the rear, so tilting the rear edge 13 of the seat support 4 about the pivot axis 8 down towards the base support 1, the seat support 4 presses the upper spring plate 31 and the upper spring plate 31 having spring receiving part 26 in the direction Base carrier 1, so that both stops 34, 35 are dissolved. The loading of the spring receiving part 26 takes place in the example illustrated here with the aid of a mounted on the seat support 4, protruding from the underside of the seat support 4 in the direction of the base support 2 pusher element 44. In this case, the Pusher 44 be designed as an integrated part of the seat support 4 or as a separate, connected to the seat support 4 component. Both the pusher member 44 and the spring receiving member 26 have for the purpose of pressing down complementary, curved contact surfaces 54, 56 which are designed such that a secure mechanical contact is ensured during the entire process of pivoting backwards. Upon pivoting of the seat support 4 to the rear thus presses the seat support 4 with its pusher 44 from above on the upper spring plate 31 having spring receiving part 26 and thus on the upper spring plate 31 and moves it against the force of the spring 28 down towards the base support. 1 The spring 28 is compressed against the lower spring plate 32, see Fig. 5 ,

When pivoting backwards, neither of the two stops 34, 35 is active. In other words, when pivoting backwards, both stops 34, 35 are resolved, i. they are without function.

A limitation of the tilting or tilting movement of the seat support 4 and the seat carrier backrest support combination is here also preferably effected by additional mechanical stops 23, 24 on seat support 4 and / or base support 1 (only in Fig. 3 shown).

The spring rate 47 of the spring 28 and the spring assembly is always the same, since the spring 28 is always claimed only on pressure. Therefore, both in a pivoting of the seat support 4 forward as well as in a pivoting of the seat support 4 to the rear always the same pivoting resistance is present and noticeable to the user of the chair 100, see Fig. 7 , The size of the bias 48 may vary depending on the application. As an alternative to coil springs, other suitable spring elements 28 can also be used in this exemplary embodiment, as long as they define a suitable pivoting resistance and are suitable for returning the seat carrier 4 from the pivoted position to the starting position.

Both embodiments have in common is u.a. Also, the always vertical arrangement of the spring 18, 28 between the base support 1 and seat support 4, regardless of the inclination or the pivot angle of the seat support 4. In other words, the spring longitudinal axis of the coil springs used 18, 28 is always perpendicular to the base support 1 and perpendicular to horizontal.

All in the description, the following claims and the drawings illustrated features may be essential to the invention both individually and in any combination.

LIST OF REFERENCE NUMBERS

1

base support

2

cone holder

3

chair column

4

seat support

5

Backrest support

6

Seat

7

backrest

8th

swivel axis

9

Chair longitudinally

10

tilt mechanism

11

(free)

12

Seat support front edge

13

Seat support trailing edge

14

front end of the basic carrier

15

Rear end of the basic carrier

16

bolt

17

warehouse

18

spring element

19

spring end

20

spring mount

21

distance

22

spring rate

23

(free)

24

(free)

25

spring mount

26

Spring receiving part

27

Spring receiving part

28

spring element

29

upper spring end

30

lower spring end

31

upper spring plate

32

lower spring plate

33

transverse axis

34

first stop

35

second stop

36

takeaway

37

tappet

38

stop surface

39

stop surface

40

(free)

41

stop element

42

stop surface

43

stop surface

44

handle

45

contact surface

46

contact surface

47

spring rate

48

preload

Claims (8)

Waving mechanism (10) for a chair (100), - with a base support (1) having a cone seat (2) by means of which it can be placed on a chair column (3) of the chair (100), - With a seat support (4) which is pivotally connected to the base support (1) via a transverse to the chair longitudinal direction (9) extending pivot axis (8), wherein the seat support (4) is pivotable both to the rear and to the front, and - With at least one spring element (18, 28) which cooperates with the seat support (4) on the one hand and with the base support (1) on the other hand, for returning the seat support (4) from a pivoted position to a starting position, wherein the at least one spring element (18, 28) seen in chair longitudinal direction (9) is arranged exclusively on one side of the pivot axis (8). Rocking mechanism (10) according to claim 1, wherein the pivot axis (8) seen in the chair longitudinal direction (9) is arranged off-center. Rocking mechanism (10) according to claim 2, wherein the pivot axis (8) in the chair longitudinal direction (9) seen in the front region of the base support (1) is arranged. Rocker mechanism (10) according to one of claims 1 to 3, wherein the at least one spring element (18) is a double-acting spring. Rocking mechanism (10) according to claim 4, wherein the at least one spring element (18) with its spring ends (19) via screwed mounting elements (20) with the base support (1) and / or the seat support (4) is connected. Rocker mechanism (10) according to one of claims 1 to 3, wherein the at least one spring element (28) in a with the seat support (4) mitbewegten spring receptacle (25) is placed, which has a plurality of mutually movable parts (26, 27), wherein at least a part (26) of the spring receptacle (25) cooperates with the base support (1). Rocker mechanism (10) according to claim 6, wherein both the movement of the spring receiving parts (26, 27) to each other and the movement of the spring retainer (25) relative to the base support (1) by stops (34, 35) is limited. Chair (100) with a rocking mechanism (10) according to one of claims 1 to 7.

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