Patent Description:
These can be, in particular, reclining or relaxing chairs equipped with or without an aid for standing up, which can usually be brought from an upright basic position into at least one reclining position. Retractable and extendable footrests, which increase the comfort in the reclining position, are usually also provided. Such chairs are extremely comfortable and promote relaxation.

Almost everyone has to deal with back pain in the course of their life, which is caused in particular by lack of exercise, over-exertion and incorrect nutrition, but above all by long and incorrect sitting. Relaxing or recliner chairs are therefore perceived as very pleasant and relaxing.

From <CIT>, a relaxation chair with an aid for standing up is known, which comprises a footrest, a seat and a backrest, which can be brought from a basic position into a raised position to facilitate standing up or at least into a relaxation position with the footrest extended.

Furthermore, <CIT> discloses a recliner chair comprising a seat, a backrest and a footrest, which has a footrest adjustment mechanism with a first actuator for extending and retracting the footrest and a seat and backrest adjustment mechanism with a second actuator for adjusting the seat and the backrest.

Although a relaxed reclining position is perceived by the user as very pleasant, passive reclining is no substitute for movement of the body, such as occurs, for example, when walking or taking part in sport. However, in some circumstances natural movement of the body is not always possible to a sufficient extent for the most varied reasons (lack of time, physical ailments). So-called massage chairs have therefore been developed which are equipped with massage elements, for example massage rollers in the backrest. Actuation of the massage function has a relaxing effect on the back muscles and can relieve cramps and tension. Such a massage chair is known, for example, from <CIT>. However, such massage chairs are relatively complex and expensive due to the technology built into the backrest.

<CIT> (<CIT>) discloses a chair type massage machine comprising a seat portion, a backrest portion, a drive apparatus for driving the reclining of the backrest portion and massage tools for performing a massage portion. Furthermore, it comprises a rocking mechanism portion with a rocking drive which forcibly rotates a movable frame in a reciprocating manner with respect to a fixed frame while taking a rocking center as a support point.

<CIT> discloses a relaxation apparatus which comprises a reclining chair for supporting thereon a whole body of a person who desires relaxation. The reclining chair comprises a seat, a footrest and a reclining back. An electric reclining unit is provided for electrically driving the back and the footrest relative to the seat. Furthermore, there is a vibrating device <NUM> having first and second drive motors.

<CIT> discloses a fitness rocking chair which comprises a toothed base on which a chair body is arranged. The chair body is provided with a seat, a backrest and a footrest and an electric push rod for positioning the seat, the backrest and the footrest. The rocking movement of the chair is achieved by a frequency conversion motor <NUM>.

<CIT> discloses a power motion furniture having a controller, an actuator, and memory storage means for setting and saving specific positioning of one or more components of the furniture. It also includes a physical alert means that indicates a specific positioning of one or more components of the furniture has been set and/or saved in the memory storage means. The physical alert means may comprise a movement and/or engagement of one or more components of the furniture which may consist of a back-and-forth movement.

<CIT> refers to a furniture member mechanism including a first actuator device electrically operated to displace first and second seat back actuation links connected to and operating to rotate a seat back member between upright and fully reclined positions. The mechanism further provides for a rocking motion of a furniture frame assembly with respect a base member by manual force/weight distribution of the occupant of the furniture member.

The object of the invention is to specify a more cost-effective piece of seating and reclining furniture with which effective relaxation is made possible for the user.

According to the invention, this object is achieved by the features of claims <NUM> and <NUM>.

The piece of seating and reclining furniture according to the invention has a seat, a backrest and an adjustment mechanism for changing the position of the seat and/or the backrest between at least an upright basic position, a first reclining position and a second reclining position, the adjustment mechanism having at least one actuator and a controller for controlling the actuator, which controller provides at least one positioning mode for positioning the seat and/or the backrest in the upright basic position, the first reclining position or the second reclining position. Furthermore, the controller has a relaxation mode for moving the seat and/or the backrest back and forth between the first and the second reclining position. In the positioning mode as well as in the relaxation mode the seat and/or backrest is adjustable by the same actuator between the first and the second reclining position. Furthermore, the angle between the seat and the backrest changes during the movement back and forth between the first reclining position and the second reclining position and wherein the relaxation mode comprises a plurality of cycles between the first reclining position and the second reclining position.

In the method according to the invention for adjusting a piece of seating and reclining furniture with a seat, a backrest, an actuator and a controller for controlling the actuator, the controller has at least one positioning mode for positioning the seat and/or backrest in an upright basic position, a first reclining position and a second reclining position and an activatable relaxation mode for moving the seat and/or the backrest back and forth. The seat and/or the backrest is adjusted in the positioning mode as well as in the activatable relaxation mode between the first reclining position and the second reclining position by means of the same actuator and wherein the angle between the seat and the backrest changes during the movement back and forth between the first reclining position and the second reclining position and wherein the relaxation mode comprises a plurality of cycles between the first reclining position and the second reclining position.

Sitting and reclining chairs, such as are known from <CIT> and <CIT>, usually only have one positioning mode in order to adjust the piece of sitting and reclining furniture, for example, from an upright basic position into a first reclining position or a second reclining position. The invention now makes use of this already existing technology by adding an activatable relaxation mode which enables a back-and-forth movement of the seat and/or the backrest between the first and the second reclining position. In this way, the user experiences a constant movement, which has a very beneficial and in particular relaxing effect on the user. The existing actuator(s) can be used for implementation, so that only a change of the controller is required.

The adjustment of the seat and/or the backrest is preferably adjusted by activation of at least one actuator, which is formed, for example, by a linear actuator with an electric motor, spindle and nut. However, two and more actuators can also be provided. The control of the actuator or actuators takes place by means of a pulse width modulation unit, which enables direct control of the actuator (electric motor) with a very high degree of efficiency. In particular, this enables a very simple adaptation of the speed of the actuator without significant energy losses.

Furthermore, it is advantageous if the speed of adjustment of the piece of seating and reclining furniture is greater in the positioning mode than in the relaxation mode. This enables a very smooth and gentle movement, above all in the relaxation mode, whilst the desired position can be reached more quickly in the positioning mode. It has also proved advantageous if the speed of adjustment of the piece of seating and reclining furniture is varied in the relaxation mode by the adjustment of the seat and/or the backrest being varied by braking and/or accelerating and/or pausing. Furthermore, it is conceivable that the speed of the actuator, by which the piece of seating and reclining furniture is adjusted in the relaxation mode, is reduced before the first or second reclining position is reached and increased again after reversal of the direction of rotation of the actuator. This in turn results in a very smooth sequence of movements, so that movement in the relaxation mode is also conceivable for a person sleeping on the piece of seating and reclining furniture.

According to a preferred embodiment of the invention, the seating and reclining furniture also has a footrest which is adjustable between a retracted position and an extended position. In this case, in particular, in a basic position of the piece of seating and reclining furniture, the footrest can be in the retracted position, and between the first and second reclining position the footrest can be in the extended position.

Furthermore, the adjustment mechanism can have a first actuator for adjusting the footrest and a second actuator for adjusting the seat and/or the backrest. However, it is also possible within the scope of the invention that both the seat and the backrest and also the footrest are actuated by one single actuator.

The tests on which the invention is based have shown that the best relaxation results are achieved when the relaxation mode can only be activated between the first and the second reclining position when the footrest is also extended. In order that the relaxation mode can only be activated between the first reclining position and the second reclining position, suitable sensors (e.g. rotary encoder, distance sensor) can be provided, which only enable the relaxation mode when the first reclining position is reached. Thus, the relaxation mode would not be possible if the piece of seating and reclining furniture is in the upright basic position or in a position before the first reclining position is reached.

Further configurations of the invention are explained in more detail with reference to the following description of two exemplary embodiments.

<FIG> show a piece of seating and reclining furniture according to a first exemplary embodiment, which comprises a frame <NUM>, a seat <NUM>, a backrest <NUM> and a retractable and extendable footrest <NUM>. Furthermore, a footrest adjustment mechanism <NUM> for extending and retracting the footrest <NUM> and a seat and backrest adjustment mechanism <NUM> for changing the position of the seat and/or the backrest are provided. The footrest adjustment mechanism <NUM> and the seat and backrest adjustment mechanism <NUM> interact with an actuator <NUM> (<FIG>) which, however, is not shown in more detail in <FIG>. For further details regarding the mechanism, reference is hereby made to <CIT>.

Starting from an upright basic position P1 of the piece of seating and reclining furniture according to <FIG>, a first reclining position P2 according to <FIG> can be reached by actuation of the actuator <NUM> with the aid of the footrest adjustment mechanism <NUM> and the seat and backrest adjustment mechanism <NUM>. If the actuator <NUM> is driven further beyond the first reclining position P2, the piece of seating and reclining furniture assumes the second reclining position P3 according to <FIG>, in which the seat <NUM> together with the footrest <NUM> and the backrest <NUM> are inclined further backwards. Thus, in the first reclining position P2, the seat <NUM> assumes an angle γ1 of, for example, <NUM>° with respect to the horizontal. In the second reclining position P3, the angle γ2 is, for example, <NUM>°. The angle δ between the seat <NUM> and the backrest <NUM> remains unchanged in the positions P2 and P3 in this embodiment. An appropriately designed mechanism could also increase the angle δ when moving from the first position P2 to the second position P3.

However, in addition to the first reclining position P2 and the second reclining position P3, an aid for standing up <NUM> can also be activated by driving the actuator <NUM> in the opposite direction starting from the basic position P1. The seat is then raised by means of a corresponding mechanism and tilted slightly forward, so that the user can get up quite easily from the upholstery (position P0 according to <FIG>). This functionality is particularly gentle on the back, as no sudden effort is required when standing up. However, this mechanism also makes it possible to sit down particularly gently and easily.

The special feature of this first exemplary embodiment is that all the positions of the piece of seating and reclining furniture shown in <FIG> can be controlled with the aid of one single actuator <NUM>. <CIT> describes a specific example of how this can be implemented. For more details on the implementation of the mechanism with one single actuator, reference is therefore explicitly made to this utility model.

The controller of the actuator <NUM> is described in more detail below with reference to <FIG>. It comprises a power supply unit <NUM> which can be connected to the power supply network, a microprocessor <NUM>, a pulse width modulation unit <NUM> and a switch <NUM> for controlling the actuator <NUM>. Furthermore, a manual controller <NUM> is also provided, with which a positioning mode (buttons "B" and "C") and a relaxation mode (button "A") can be activated. The power supply unit <NUM> supplies the microprocessor <NUM> and the pulse width modulation unit <NUM> with the required voltage. The control commands activated on the manual controller <NUM> via the buttons A, B or C are implemented by the microprocessor <NUM>, which subsequently controls the pulse width modulation unit <NUM> and the switch <NUM>.

For example, in the positioning mode it could be provided that the actuator <NUM> is controlled via the microprocessor by pressing the button B such that the piece of seating and reclining furniture moves from the basic position P1 according to <FIG> to the first reclining position P2 according to <FIG>. Pressing the button B again causes a further adjustment to the second reclining position P3. If, on the other hand, the button C is pressed, the direction of rotation of the actuator <NUM> is reversed, so that a retrograde adjustment from P3 to P2 or from P2 to P1 takes place there.

If the piece of seating and reclining furniture is in the basic position P1 according to <FIG> and the button C is then pressed, the actuator is also actuated in the opposite direction of rotation, whereby the aid for standing up <NUM> is activated, causing an adjustment to the raised position P0 according to <FIG>. In order to move from the raised position P0 into one of the other positions P1, P2 or P3, the button B must be pressed once, twice or three times.

The operation of the manual controller <NUM> as described above activates the positioning mode, which leads to the piece of seating and reclining furniture assuming one of the positions according to <FIG>, <FIG>.

To activate the relaxation mode, the button A on the manual controller <NUM> is pressed and causes the piece of seating furniture to move back and forth between the two reclining positions P2 and P3. A more detailed description of the relaxation mode is given below with reference to <FIG>. A safety query in the microprocessor <NUM> when the button A is activated can provide that the relaxation mode can only be activated when the piece of seating and reclining furniture is located in the first or the second reclining position P2, P3, that is to say either in the position according to <FIG> or the positions shown in <FIG>. If this is not the case, it could be provided in the microprocessor <NUM> that the activation of the relaxation mode is blocked. Alternatively, however, it is also conceivable that activation of the relaxation mode in the upright basic position P1 according to <FIG> or the raised position P0 first causes the piece of seating and reclining furniture to be positioned in the first reclining position P2 in order then to switch to the relaxation mode.

So that the microprocessor <NUM> knows the position of the piece of seating and reclining furniture, a sensor <NUM>, which detects the respective position of the actuator <NUM> and thus also the position of the piece of seating and reclining furniture, can be assigned to the first actuator <NUM>. The sensor <NUM> is connected to the microprocessor <NUM> and can be designed, for example, as a rotary encoder or distance sensor.

<FIG> show a second exemplary embodiment of a piece of seating and reclining furniture, only the parts relevant for the adjustment of the piece of seating and reclining furniture being shown. Any upholstery of the backrest and seat, and also the other body of the piece of seating and reclining furniture are not shown here. The piece of seating and reclining furniture in turn has a frame <NUM> for setting down on a floor <NUM>, only a fixed frame part <NUM> of said frame being shown here. Furthermore, it is provided with a seat <NUM> which is illustrated by a seat support <NUM>, a backrest <NUM> which is illustrated by a backrest support <NUM>, and a footrest <NUM> which is indicated by its footrest support <NUM>.

A footrest adjustment mechanism <NUM> which has a first mechanical linkage <NUM> and a first actuator <NUM> is also provided for extending and retracting the footrest <NUM>. The first mechanical linkage <NUM> is articulated in the region of the seat support <NUM>. In a corresponding manner a seat/backrest adjustment mechanism <NUM> with a second mechanical linkage <NUM> and a second actuator <NUM> is provided for the adjustment of the seat <NUM> and the backrest <NUM> from an upright basic position P1 (<FIG>) to a first reclining position P2 (<FIG>) or a second reclining position P3 (<FIG>). The second mechanical linkage <NUM> connects the seat support <NUM> and the backrest <NUM> and is articulated to the fixed frame part <NUM>. In the exemplary embodiment shown, the seat support <NUM> consists of two laterally opposing parts which are connected to one another approximately centrally via a first cross member <NUM>. The first mechanical linkage <NUM> of the footrest adjustment mechanism <NUM> is also formed symmetrically to the longitudinal center plane of the piece of seating and reclining furniture, the two sides being connected to one another via a second cross member <NUM>. In a corresponding manner, the second mechanical linkage <NUM> of the seat/backrest adjustment mechanism <NUM> is formed in mirror symmetry on both sides, and the two sides are coupled to one another via a third cross member <NUM>. The first actuator <NUM> is arranged between the first cross member <NUM> and the second cross member <NUM>, so that actuation of the first actuator <NUM> leads to the first mechanical linkage <NUM> of the footrest adjustment mechanism <NUM> articulated on the seat support <NUM> being adjusted relative to the seat support <NUM> in the sense of an extension or retraction of the footrest <NUM>. The second mechanical linkage <NUM> for adjusting the seat <NUM> and backrest <NUM> is articulated to the fixed frame part <NUM>, actuation of the second actuator <NUM> causing an adjustment of the seat <NUM> and the backrest <NUM>.

4a to 4f show the different positions that the piece of seating and reclining furniture can assume. <FIG> shows the upright basic position P1 with the footrest retracted. The angle α between the seat <NUM> and the backrest <NUM> is, for example, <NUM>° +/-<NUM>°. The seat support <NUM> has in its front region a distance h1 from the floor <NUM> which is, for example, <NUM> +/- <NUM>.

<FIG> shows a first intermediate position which is reached by actuating the second actuator <NUM> of the seat/backrest adjustment mechanism <NUM>. Here, the second mechanical linkage <NUM> initially causes only a shift of the seat <NUM> or the seat support <NUM> forward and a simultaneous lifting of the front region. The backrest <NUM> or the backrest support <NUM> are taken along, the angle α between the seat <NUM> and the backrest <NUM> remaining the same in relation to the upright basic position P1. The front region of the seat <NUM> is pushed forward by L1, for example, <NUM> +/- <NUM>. The height of the front region of the seat support <NUM> relative to the floor <NUM> increases to h2, for example <NUM> +/- <NUM>. On the one hand, this movement causes the backrest <NUM> to be tilted backwards relative to the floor, without, however, significantly reducing the distance from any rear wall which may be present. In order to achieve this, the seat <NUM> is moved forward. This type of synchronous movement of the seat <NUM> and the backrest <NUM> is widely known from the prior art and therefore is not explained in detail.

The footrest adjustment mechanism <NUM> requires a clear distance of the front end of the seat <NUM> from the floor which is greater than the clear distance present in the upright basic position P1 according to <FIG> and is smaller than the clear distance present in the first intermediate position according to <FIG>. In other words, the footrest <NUM> cannot be extended in the upright basic position P1 according to <FIG>, because it would otherwise come into contact with the floor and block it.

<FIG> shows the footrest half-extended by corresponding actuation of the first actuator <NUM>. It can be seen that in this position there is a distance a between the footrest and the floor <NUM> which is expediently chosen to be only large enough to enable the footrest to be extended or retracted without contacting the floor.

With conventional recliner chairs with extendable footrests, the footrest can also be swiveled in or out at any time in the upright basic position.

Due to the special design of the recliner shown here, the footrest can only be actuated in the intermediate position according to <FIG>, but this has the advantage that the footrest can be made longer by the amount by which the front region of the seat is raised. Thus, in the exemplary embodiment shown, the footrest can be extended by the dimension h2 - h1. This increases comfort when the user puts his feet down.

Alternatively, however, it would also be conceivable not to increase the length of the footrest and instead to lower the seat support accordingly and to convert the height gained thereby into a corresponding reinforcement of the seat upholstery.

The fully extended footrest <NUM> is shown in the first reclining position P2 in <FIG>, in which position the angle α between the seat and the backrest is still unchanged. Only by further actuation of the second actuator <NUM> of the seat backrest/adjustment mechanism <NUM> in the second reclining position P3 according to <FIG> does the angle between the seat <NUM> and the backrest <NUM> increase to an angle β, with β - α for example <NUM>° +/- <NUM>°. With this enlargement of the angle, the seat <NUM> or seat support <NUM> is again pushed forward by the dimension L2, so that when the front end of the seat <NUM> moves from the upright basic position P1 according to <FIG> into the second reclining position according to <FIG> it is displaced in the direction of its front end by <NUM> +/- <NUM>.

Although in the illustrated exemplary embodiment the angle between the seat and the backrest is not changed between the upright basic position P1 and the first reclining position P2, the seat/backrest adjustment mechanism <NUM> can of course also be designed such that this angle changes already in this first adjustment phase.

In order to prevent the first actuator <NUM> for the footrest <NUM> from being actuated in the upright basic position P1 according to <FIG>, a sensor or switch <NUM> is provided (<FIG>) which detects whether the recliner chair has already reached the intermediate position shown in <FIG>, and thus the distance necessary for extending the footrest <NUM> is available. The controller <NUM> shown in <FIG> ensures that the first actuator <NUM> is only released or can only be activated when the sensor or switch <NUM> has recognized that the first intermediate position according to <FIG> has been reached.

When this piece of seating and reclining furniture is being adjusted, a distinction is made between a positioning mode and a relaxation mode. The controller <NUM> required for this is shown in more detail in <FIG> and corresponds substantially to the controller of the first exemplary embodiment according to <FIG>. It differs primarily in that two actuators, namely the first actuator <NUM> and the second actuator <NUM>, are controlled, and the manual controller therefore has additional functions/buttons.

The control commands activated on the manual control <NUM> are implemented by the microprocessor <NUM>, which subsequently controls the pulse width modulation unit <NUM> and the switches <NUM> and <NUM>, depending on which of the two actuators <NUM>, <NUM> is to be activated. For example, it could be provided that the first actuator <NUM> can be controlled by the button B, so that it moves the piece of seating and reclining furniture from the basic position P1 of <FIG> into the position according to <FIG> or from the position according to <FIG> into the first reclining position P2 according to <FIG>, depending on the position in which the piece of seating and reclining furniture is currently located. With the button D, the actuator <NUM> is activated by reversing the direction of rotation in the opposite direction, so that an adjustment from <FIG> or from <FIG> takes place.

The buttons D and E are used to control the second actuator <NUM> with the reversed direction of rotation. Pressing the button D could, for example, cause an adjustment to the second reclining position P3 according to <FIG>, regardless of the position in which the piece of seating and reclining furniture is currently located. This would possibly require subsequent control of the first and second actuators <NUM>, <NUM> if the piece of seating and reclining furniture were still in the basic position P1. An actuation of the button E is connected to an adjustment to the first reclining position P2 according to <FIG>.

The positioning mode is activated by the buttons B, C, D and E of the manual controller <NUM>, which leads to the piece of seating and reclining furniture assuming one of the positions according to <FIG>, <FIG>. The position according to <FIG> is only an intermediate position, which cannot be approached explicitly.

To activate the relaxation mode, the button A on the manual controller <NUM> is pressed. A safety query in the microprocessor <NUM> can, however, provide that the relaxation mode can only be activated when the piece of seating and reclining furniture is in the first or second reclining position, i.e., either in the first reclining position P2 according to <FIG> or in the second reclining position P3 according to <FIG>. If this is not the case, it could be provided in the microprocessor that the activation of the relaxation mode is not carried out. Alternatively, however, it is also conceivable that activation of the relaxation mode in the upright basic position P1 according to <FIG> first causes the piece of seating and reclining furniture to be positioned in the first reclining position P2 according to <FIG> in order to then subsequently switch to the relaxation mode.

So that the microprocessor <NUM> knows the position of the piece of seating and reclining furniture, either the sensor or switch <NUM> is provided and/or a first sensor <NUM> is assigned to the first actuator <NUM> and a second sensor <NUM> is assigned to the second actuator <NUM>, the two sensors <NUM>, <NUM> being designed such that they recognize the respective position of the actuators and thus also the position of the piece of seating and reclining furniture. The sensors can be designed, for example, as rotary encoders or distance sensors. The sensors <NUM>, <NUM>, <NUM> are therefore connected to the microprocessor <NUM>.

If the user activates the relaxation mode with the button A, the seat <NUM> and the backrest <NUM> are moved back and forth between the first reclining position P2 and the second reclining position P3. In the present exemplary embodiment, this means that the second actuator <NUM> is activated in such a way that the piece of seating and reclining furniture moves from the first reclining position P2 to the second reclining position P3, the direction of rotation of the actuator <NUM> is reversed there and then the piece of seating and reclining furniture moves back into the first reclining position P2. Depending on the selected program, this process is then repeated several times until the program has finished or is interrupted by the user.

Although a footrest <NUM> was present in each of the two exemplary embodiments described above, it is also quite conceivable within the scope of the invention that the piece of seating and reclining furniture has no footrest or that the relaxation mode can also be carried out without the footrest extended.

Various examples of how the actuators are controlled in the positioning mode or relaxation mode are explained with reference to Figs. <NUM> to <NUM>. In the diagrams, P1 denotes the upright basic position according to <FIG> or <FIG>. The first reclining position according to <FIG> and <FIG> is designated by P2 and the second reclining position according to <FIG> and <FIG> is designated by P3.

<FIG> shows a speed/distance diagram for the positioning mode from the position P1 via the position P2 to the position P3. The specified travel distance relates to the stroke of the associated actuator, which is defined by the travel distance of the nut on the spindle in the case of a linear actuator with a spindle and a nut. It can be seen from <FIG> that a stroke of <NUM> is required from the position P1 to the position P2 and a further stroke of <NUM> is required from the position P2 to the position P3, the stroke being performed at a constant speed of <NUM>/s. In the case of the first exemplary embodiment, the entire stroke of <NUM> is carried out by the actuator <NUM>, while in the second exemplary embodiment the adjustment from P1 to P2 is effected by the first actuator <NUM> and the adjustment from P2 to P3 is effected by the second actuator <NUM>.

The associated time/distance diagram is shown in <FIG>, from which it can be seen that it takes about <NUM> seconds to move from P1 to P2 and another <NUM> seconds to move to the position P3. Of course, the details of all values are only to be understood as examples.

<FIG> shows a speed/distance diagram in which the positioning mode is carried out between the positions P1 and P2 and a relaxation mode is carried out between the positions P2 and P3. It can be seen that the positioning mode takes place relatively quickly at a speed of <NUM>/s, while the speed in the relaxation mode is significantly lower, in particular less than half. Moreover, it can be seen that the speed is varied in the relaxation mode. Thus, the associated actuator is first accelerated from the position P2 in order to then continue to run at a constant speed before decelerating shortly before reaching the second position P3, so that the speed at the position P3 is <NUM>.

In the associated time/distance diagram according to <FIG>, it can also be seen that about <NUM> seconds are required for the distance of <NUM> in the positioning mode, while a longer time of <NUM> seconds is set for the significantly shorter distance of <NUM> in the relaxation mode. This takes into account the user's wish that the desired position should be reached quickly in the positioning mode, while the movement in the relaxation mode should take place gently and slowly.

Claim 1:
A piece of seating and reclining furniture comprising a seat (<NUM>), a backrest (<NUM>) and an adjustment mechanism (<NUM>) for changing the position of the seat (<NUM>) and/or the backrest (<NUM>) between at least an upright basic position (P1), a first reclining position (P2) and a second reclining position (P3), the adjustment mechanism (<NUM>) having at least one actuator (<NUM>; <NUM>) and a controller (<NUM>) for controlling the actuator (<NUM>; <NUM>), the controller (<NUM>) having at least one positioning mode for positioning the seat (<NUM>) and/or backrest (<NUM>) in the upright basic position (P1), the first reclining position (P2) or the second reclining position (P3) and a relaxation mode for moving the seat (<NUM>) and/or the backrest (<NUM>) back and forth,
wherein in the positioning mode as well as in the relaxation mode the seat (<NUM>) and/or backrest (<NUM>) is adjustable by the same actuator between the first reclining position (P2) and the second reclining position (P3), wherein the angle between the seat (<NUM>) and the backrest (<NUM>) changes during the movement back and forth between the first reclining position (P2) and the second reclining position (P3) and wherein the relaxation mode comprises a plurality of cycles between the first reclining position (P2) and the second reclining position (P3).