WO2008131968A2 - Piece of furniture, and mechanism for ejecting a furniture part movably received on a stationary furniture part - Google Patents

Abstract

Disclosed is a mechanism for ejecting a furniture part that is movably received on a stationary furniture part. Said mechanism comprises an ejection element (7) which can be swiveled using a drive unit (13a), is mounted on one of the two furniture parts, and is temporarily in contact with the other furniture part to eject the movable furniture part in order to interrupt the contact between the ejection element (7) and the other furniture part during an ejection process. The disclosed mechanism further comprises control means for predefining a swiveling course of the ejection element (7). According to the invention, stationary supporting means (15, 15a) are provided on the ejection element (7). During an ejection process, said supporting means (15, 15a) rest against a guiding section (11a) of a control element (11) that can be rotated using the drive unit (13a).

Description

 "Furniture and device for ejecting a furniture part, which is movably received on a stationary furniture part"

The invention relates to a device according to the preamble of claim 1 and a furniture according to claim 13.

State of the art

Apparatus for ejecting a movable furniture part or to move it out of a closed position on a stationary furniture part over a partial distance, are known. In this case, drawers, doors, flaps or other movable furniture parts of a piece of furniture can be moved by at least a comparatively small distance, in order then to be able to move on manually, for example. For example, in the case of drawers displaceably received relative to a body, it may be desirable to move the drawer out of a closed position or out of a body retracted position by means of a driven ejection element, in particular over a relatively short distance, eg by about 30 to 70 millimeters. The thus partially opened drawer can move a little further without further drive or can then be opened or closed again by hand conventionally by hand. For this purpose, for example, a pivotable via a drive unit ejection element can be used. Purpose and advantages of the invention

Object of the present invention is to provide a corresponding piece of furniture or a device of the type mentioned above, which is technically or economically advantageous for a variety of applications. In particular, the reliability and ease of use of such devices should be improved.

This object is solved by the claims 1, 2 and 13. In the dependent claims advantageous embodiments of the invention are shown.

The invention relates to a device for ejecting a furniture part, which is movably received on a fixed furniture part, with a pivotable about a drive unit ejection element that is attached to one of the two furniture parts and temporarily in contact with the other furniture part to the movable furniture part to eject, with the intention that during a discharge operation, the contact between the discharge element and the other furniture part is canceled and with control means for specifying a pivoting course of the discharge element. A first essential aspect of the invention resides in the fact that support means fixedly positioned on the ejection element are provided, which are supported on a guide section of a control element rotatable via the drive unit during an ejection process. In this way, the ejection process can be realized reliably. In particular, the ejection element can be guided exactly during its pivoting movement or can be transmitted via the support means comparatively high forces from the ejection element to the relevant other furniture part. In particular, the support means are so matched to the guide portion of the control that over the entire pivoting of the ejection element a Support and thus a guide of the ejection element is ensured. The support means may in particular be formed integrally with the ejection element or from a base part of the ejection element. A special equipment of the support means is also possible, for example, to increase the mechanical strength, for example by stiffening agents.

It is also conceivable that the fixed positioning of the support means at different locations on the ejection element can be adjustably set to e.g. To allow different Abstützhöhen or support points with the support means. With the help of the support means they can store the ejection element on the guide section in the manner of a support. Thus, the movement of the ejection element can be better managed, in particular since an additional bearing function is provided by means of the support means in addition to a bearing point in the region of a pivot axis of the ejection element.

Furthermore, it is advantageous that the ejection element is moved indirectly by the drive unit. The movement is transmitted to the ejection element by the driven control. This can be achieved in particular a longer life or better assembly and disassembly of the device. The ejection element can in particular be mechanically relatively robust and uncomplicated.

The driven rotational movement of the control element can also be set up comparatively easily with respect to a drive for a pivoting movement of the ejection element, since, for example, a drive transmission to the ejection element in the region of the pivot axis would be mechanically or spatially more difficult. With the proposed device can, for example, if the movable furniture part is a drawer, which received via a guide means on a furniture body movably received drawer, by the ejection process over a relatively small driven way of about 50 millimeters (mm) preferably between 30 and 70 mm subsequently freewheeling be ejected. The further or residual movement of the drawer into an open position can be done in particular in a conventional manner, for example by pulling or pushing in by hand. When closing the drawer, the last section of the closing can be done conventionally or optionally damped or under the action of a automatic or other additional means.

It is often preferred if the ejection element is attached to the stationary furniture part, but the ejection element can also be arranged on the movable furniture part.

Another essential aspect of the invention is that a control unit rotatable via the drive unit is provided, with which the impact element can be pivoted continuously repeatable from a starting position to a maximum pivoting position and back to the next starting position without reversing the direction of rotation of the control. Thus, the drive unit or a transmission to the rotatable control element and a necessary control unit for controlling the drive unit can be designed comparatively simple. In particular, it is advantageous, for example, for reasons of wear or to minimize noise, that no reversal of the direction of movement of the control or the driving direction of rotation is required. Rather, the ejection element can very quickly cause an ejection process and then be provided immediately for a next possible ejection operation in the corresponding position or the starting position. It is also proposed that an overload protection is provided, with which a reversal of the direction of rotation of the control can take place during the ejection process at a predeterminable force on the ejection element, which counteracts a pivoting movement for ejecting the movable furniture part. With the reversal of the direction of rotation of the control element and the ejection element can swing back so that the movable furniture part moves in the closing direction or at least not further moved in the opening direction. This can be excluded in particular otherwise possibly occurring damage or overload on the ejection element, on the drive unit, the ejection element or the control. With the overload protection, the direction of rotation of the control can be reversed at a particular achievable resistance against the ejection movement, for example, when a person is in front of the movable furniture part or in which sweeps in the ejection process movement path.

It is also proposed that the ejection element can be pivoted from the starting position into the maximum pivoting position and back into the starting position with a maximum of one complete revolution of the control element. In this way, the pivoting of the ejection element can be realized in particular without complex gear stages or ratios or with a relatively low susceptibility. In addition, a desired pivoting position can thus be taken relatively quickly or a pivoting operation or an ejection process can be carried out. If necessary, the number of components can also be kept low with this arrangement.

In a further preferred embodiment of the subject invention, the support means and the guide portion are formed coordinated with each other to in each pivoting position of the ejection element to allow its support. For a particularly stable and finely tuned leadership of the ejection element is realized. In addition, comparatively high forces can be transmitted from the ejection element to the relevant other furniture part in all pivoting positions of the ejection element. With the support, the entire ejection structure can be stabilized, in particular when the ejection element is designed as a pivotable ejection lever with a free end remote from the pivot axis, which is not guided or supported. Thus, such an ejection lever can perform a defined movement, wherein the movement shows no or only slight deviations from an ideal line.

Furthermore, it is proposed that the guide section be formed on the control in such a way that, with the rotation of the control element, the support means can roll or slide along the guide section. Thus, the ejection element can be performed very evenly or pivoted almost vibration-free. Furthermore, friction losses can be minimized by moving past sections of the support means and the guide section. In addition, if necessary, an unwanted comparatively high noise development can be prevented or at least reduced.

Advantageously, the guide section is designed as a track rotating with the rotation of the control element. With the encircling track, which is coupled to the rotation of the control element, a particularly exact or continuously provided guidance of the ejection element can be realized. The circumferential track may be formed so as to guide the moving portion of the support means precisely and smoothly, whereby the pivotal movement of the ejection element in particular at any time of the Pivoting movement is executable according to an ideal line.

Preferably, the guide portion is formed such that with the rotation of the control portions of the guide portion with different courses are effective. This allows decoupled from the design of the ejection element alone by the specification of the guide portion desired movement patterns or patterns of the ejection realize. This is particularly advantageous if the swivel angle of the ejection element swept over per unit of time can clearly differ within one ejection process.

It is particularly advantageous that the guide section comprises a flat and a steep course, wherein the flat profile is preferably longer than the steep course. Thus, a profile of the pivoting movement of the ejection element can be adapted to a desired dynamics of the ejection process or the pivoting of the ejection element particularly advantageous. In particular, a comparatively uniform or rapid ejection can be realized from a closed position of the movable furniture part, in particular via the flat profile of the guide section. Immediately after the ejection or after the release of the ejection element from the respective furniture part can further be made possible a quick return to a starting position of the ejection element, in particular over the steep course of the guide portion. If a wrong movable furniture part has been opened, it can advantageously be quickly closed again without the ejection element interfering or getting in the way. In principle, of course, a consistently uniform or a hardly changing course of the guide portion is possible, whereby a correspondingly uniform pivoting movement of the ejection element is coupled. In a further preferred embodiment of the subject invention, the control comprises a portion with a tooth profile, via which a drive effect of the drive unit can be applied to the control. About a toothed profile or a toothed portion, such as a spur or Schneckenradabschnitt a driving effect can be safely transmitted in a confined space or in a compact design in height to the control. It is particularly preferred if the toothed portion is present in an outer region of the rotary control element, whereas the guide portion, on which the support means of the ejection element move along, are provided in an inner region of the control element. The control element can be formed, in particular, from a rotating flat disc with a tooth profile formed on a radially outer narrow side and a guide section lying on the inside.

In a further particularly preferred embodiment of the subject invention, the control is designed as a cam. A cam can be designed particularly simple or space-saving. In particular, the radially outer circumferential narrow side can be designed as a guide section on the cam disk, wherein a drive effect can be applied via a drive shaft arranged eccentrically on the cam disk. Advantageously, such a tooth profile or a corresponding gear contour on the cam disc is not provided in comparison to a control with tooth profile.

Furthermore, it is proposed that sensor means for detecting a triggering action for ejecting the movable furniture part are provided. For example, by acting on the movable furniture part itself, for example by a person pressing against the movable furniture part, which corresponds to a triggering action, the ejection movement is initiated. For example, in systems with so-called touch-latch arrangements by pressing against the opening direction, the movable furniture part undergo a triggering action. For this purpose, appropriate sensor means for detecting this triggering action can be provided. For example, these may be non-contact or touch-activated sensors. For this purpose, buttons, switches, proximity sensors and the like can be counted. The sensor means can operate mechanically, optically, magnetically and / or electrically. Preferably, a Hall sensor can be used to detect a state of motion of a movable furniture part.

A triggering of the ejection process takes place only when the triggering operation is within a predetermined time window. Too short an exposure does not trigger or not too long exposure, if, for example. a person is leaning against the movable furniture part.

Furthermore, the invention relates to a piece of furniture with a relative to a fixed furniture part movable furniture part, wherein the furniture has one of the above-mentioned devices. Thus, the already mentioned advantages or features can also be realized for a corresponding furniture part.

Under furniture parts are primarily furniture parts for kitchen and home furniture to understand, however, the term furniture parts in the context of the invention may also extend to drawers, doors and flaps at other facilities, such as a drawer on a tool cabinet or car.

The invention particularly relates to the ejection of a drawer over a small driven path with a subsequent free spout to standstill. The drive should be done by an electric motor and a manual opening and closing of the drawer should be possible without restrictions. The closing of the drawer should be done manually and their movement damping, their indentation with springs or their other functions not restrict.

This is achieved by a pivot lever which is arranged in the region between the rear wall of the body and the rear wall of the drawer and pushes the drawer by the pivoting movement to the outside. The conversion of the rotational movement of the motor into a pivotal movement of the lever is achieved via an eccentric movement of a camshaft or a cam disk. It is important to pay attention to very limited space and a gearbox for speed reduction is also provided. The most space-saving design variant is a

Worm gear with a tubular cam disc which is arranged within the worm wheel. In this case, two small motors can be arranged at each end of the screw to increase the drive power. In a camshaft or cam disk, different ejection speeds can be generated in different directions by different slopes at a constant speed in a constant direction. After a full revolution of the camshaft or the cam disk, the system is back in the normal position. With a direct rotary drive of the swivel axis, the direction of rotation of the motor must be changed and the respective end positions must be monitored very precisely. In particular, this applies after a power failure when the controller needs to know the exact position of the Ausschubhebels to not destroy the system by overspeeding the maximum swing angle.

In the present solution, a push-out operation can be restarted regardless of the position of the swing lever. The start and end position of the lever is determined by the defined lower and upper dead center of the cams. This top and bottom dead center may extend over a larger angle of the cam. As a result, no exact stop position of the engine is no longer necessary, even if the lever serves as a stop for the drawer and thereby defines the front gap. The outer end of the lever can also be provided with an adjustment screw to adjust the front gap.

Furthermore, for such systems, a virtually constant trailing path of the movable furniture part is advantageous for differently sized masses to be moved, wherein the mass to be moved with the movable furniture part depends primarily on the structure of the movable furniture part itself or, if applicable, its load , This may require different ejection parameters or speeds.

For safety reasons, it may be necessary that the movable furniture part does not extend or in the case of an overload or if a person is in the path of movement of the movable furniture part, the extension of the load is interrupted. This can be done, for example, by a structural adaptation of the ejection element or be solved mechanically.

The fastening of the system takes place, for example, on sections of the stationary furniture part, preferably on cross-sections made of longitudinal profiles.

Basically, it is advantageous in the proposed arrangement that regardless of the method of attachment of the movable furniture part on the fixed furniture part, the ejection device universally attachable or this is easy to retrofit. In particular, no additional provisions for locking the movable furniture part in the closed position must be provided, since the movable furniture part can be kept in the closed position via conventional latches such as a retraction automatic. figure description

With reference to the figures, further details and features of the invention with reference to schematically illustrated

Embodiments explained in more detail. In the figures, corresponding parts of different embodiments are sometimes used the same reference numerals.

In detail shows

1 shows a schematically illustrated furniture with drawer in perspective view,

FIG. 2 shows the furniture according to FIG. 1 with the omission of individual parts, wherein the drawer is shown opened,

3 shows a view from above of the furniture according to FIG. 1 without an upper part, wherein the drawer is shown in different positions before, during and after an ejection process, FIG.

FIGS. 1a to 7c show a perspective full view, a partial sectional view and a partial front view of the ejection device for ejecting the drawer inserted in FIGS. 3 to 6 and attached to a receptacle;

8a to 8c, the arrangement according to the figures 7a to 7c in a first pivot position of an ejection lever in a further full perspective view, wherein a housing portion of the ejector is omitted, and in a partial sectional and partial front view,

8d to 8e, the ejection device according to the figures 7a to 8c in a second pivoting position of the ejection lever in a partial sectional and partial front view,

FIG. 9 shows a control disk of the ejection device according to FIGS. 7a to 8e,

FIG. 10 shows a further embodiment of an ejection device according to the invention,

FIG. 11 shows a further embodiment of an ejection device according to the invention,

Figure 12 to Figure 19 is a schematically illustrated cut-open cabinet with drawer, which is ejected with an ejection device according to the invention, which is shown only as a schematic diagram, the furniture is shown with the drawer closed and in different ejection positions of the drawer,

Figure 20 to Figure 26 is a schematically illustrated cut-free cabinet with drawer, which is ejected with another ejector, which is shown only as a schematic diagram, the furniture is shown with the drawer closed and in different ejection positions of the drawer. FIGS. 1 and 2 show a piece of furniture 1 with a body 2 and a drawer 3 which can be moved in the body 2 via a pull-out guide 4. The pull-out guide 4 comprises in particular a full extension with a drawer-side drawer rail, a body-side fixed rail and a movable one between them middle rail. In Figure 1, the drawer 3 is in a closed position in which between the body 2 and an inner side of a front end 3a of the drawer 3, a front gap 5 is formed, for example, a few millimeters. The front section 3a has no handle in the example shown, but also a handle may be present.

The front gap serves primarily to enable a release command by pressing on the front part 3a for a discharge operation, in which the drawer 3 can be moved in the direction of the body 2 over a few millimeters, reducing the front gap 5. A triggered ejection process is carried out with an ejection device 6 according to the invention. If the closed drawer 3 is pressed slightly in the state shown in FIG. 1, a movement of the drawer can be registered via, for example, corresponding sensors (not shown), whereby an ejection process by means of the ejection device 6 is triggered.

Figure 2 shows the fully opened drawer 3 in the body 2, which is shown without a side wall, rear wall and upper part. An ejection lever 7 of the ejector 6 is shown in a maximum pivoted position. The ejection lever 7 can be pivoted, for example, with respect to the rear wall of the furniture body 2, not shown, by a maximum pivoting angle of approximately 80 to approximately 90 degrees or more. By pivoting the ejection lever 7 this comes to the outside of a rear wall 3b of the drawer 3 Plant and can push the drawer 3 from a closed position in particular to move a distance of, for example, about 30 to 70 mm from the closed position shown in Figure 1 in the opening direction. For this purpose, the ejection lever 7 is moved from an applied or folded-back position into the pivoting position shown in FIG. 2 via a drive unit concealed by a housing part. Thereafter, a contact between the rear wall 3b and the ejection lever 7 is released and the moving drawer 3 can move freely for a while. Subsequently, preferably when the drawer 3 is still a piece of free moves or as soon as the contact between the rear wall 3b and the ejection lever 7 is released, in particular by means of the drive unit of the ejection lever 7 is pivoted back into the folded back position, for a next Verschwenk- or Ejecting process ready to be. When applied position of the ejection lever 7 (not shown) whose longitudinal axis is aligned approximately parallel to the drawer rear wall 3b and to trusses 8a, 8b.

About the two trusses 8a and 8b, the ejector 6 is releasably clipped. The two trusses 8a, 8b are themselves accommodated in receiving flanges 9a and 9b, which are fastened to the side walls of the furniture body 2.

The ejection device can also be attached to the drawer 3 and moved along with it, then the ejection lever 7 can at least be ejected into contact e.g. get to the back wall of the body 2.

The ejection lever 7 is shown in Figure 2 in its maximum pivoted position so that it is clearly visible, with completely open drawer 3 of the ejection lever 7 is usually already in its zurückgeschwenkten position or in its rest position. In FIGS. 3 to 6, a piece of furniture 1 is shown from above with the omission of an upper side of the body 2, which has an ejection device 6 modified with respect to the ejection device according to FIG. The furniture body 2 shows a rear wall 2a, a right side wall 2b and a left side wall 2c. In addition, between the side walls 2b and 2c extending trusses 8a and 8b are housed according to Figure 2, where the ejector 6 is fixed. In FIG. 3, when the drawer 3 is completely closed, the ejection lever 7 is stretched or straight in its shape and in a swung-back rest position. The ejector 6 or the trusses 8a, 8b advantageously require a comparatively small installation space, in particular in the depth of the furniture 1.

Figures 4 and 5 show the ejection lever 7 in a bent shape or with a bend, wherein a front angled portion of the ejection lever 7 on a rear wall 3b of the drawer 3 can lie flat (Figure 4) or punctiform (Figure 5). In Figure 5, the ejection lever 7 is pivoted slightly further than in Figure 4, wherein the pivoting movement of the ejection lever 7 is effected by a drive unit, not shown. By the pivoting movement of the ejection lever 7 and its contact with the rear wall 3b of the drawer 3, the drawer 3 is moved from the closed position shown in Figure 3 a little way in the opening direction. The drawer 3 is not moved by the movement of the ejection lever 7 to the fully open position shown in FIG. Rather, the drawer 3 is brought after the ejection movement by ejection lever 7 in a partially open position, from which, for example, a person can open the drawer 3 by hand on or close again. The sequence of movements could also be optimized so that the drawer 3 alone by the ejection process to the full or almost runs full open position.

After the ejection operation, the ejection lever 7 is swung back immediately or shortly thereafter back to its rest position, as Figure 6 illustrates. Due to the articulated Abknickmöglichkeit of the ejection lever of the ejection process at an angle forming ejection lever 7 is fully stretched in its rest position according to Figure 3 and Figure 6 again and save space in the body 2 accommodated.

The ejection device 6 shown in Figures 3 to 6 with the trusses 8a, 8b and receiving flanges 9a, 9b is shown in detail in Figures 7a to 8e. Figures 7a and 8a show in perspective the ejection device 6, the trusses 8a, 8b and the receiving flanges 9a and 9b in a rest position of the ejection lever 7 (see Figure 7a) and in a partially pivoted position of Figure 8a. Figure 7b shows a section along the line A - A of Figure 7c. Accordingly, FIG. 8b shows a sectional view according to the section line B-B from FIG. 8c, and FIG. 8d shows a sectional view through the arrangement according to FIG. 8b along the line C-C in FIG. 8e. The pivoting movement of the ejection lever 7 is achieved by the interaction of a support pin 10 on the ejection lever 7 with a guide track IIa of a rotating steering wheel 11. In this case, the steering wheel 11 is driven in rotation via an unspecified drive unit, in particular with an electric motor.

Figure 9 shows the steering wheel 11 highly schematized with the guideway IIa in a perspective view.

An angle α formed by the bend (FIG. 8b) on one side of the ejection lever 7, which faces away from a side coming into contact with a drawer rear wall, may be a value of slightly less than 180 degrees. In principle, different total lever lengths or positions of the bend point along the ejection lever 7 are possible, whereby a driven ejection movement or an associated total ejection path can be determined. About the design of the guideway IIa, the course of the ejection movement over time or over a rotation angle of the steering wheel 11 can be determined.

Two further embodiments of the ejection device 6 are shown in Figures 10 and 11, wherein the ejection device according to Figure 11 only by a second drive unit or a second electric motor 13b, for a transmission 14, e.g. so as to provide a higher drive power for the ejection operation, different from the ejection device according to FIG.

The ejection lever 7 is straight formed on a contact with a furniture section during the ejection process contact side 7a over almost its entire length and has a rounded portion in a front end portion.

The ejection device 6 according to FIG. 10 has a base frame 12 on which a drive unit in the form of an electric motor 13 a with a gear 14 is accommodated. The transmission 14 is used to transmit a driving action on the steering wheel 11 that is provided with a cooperating with the gear outer teeth IIb. Radially further inside the steering wheel 11 a closed guideway IIa is formed. The guideway IIa is used to guide or support the ejection lever 7 via a rigidly angled support foot 15, which is provided at the end with a rotatably mounted roller 15a. About the roller 15a, the support foot 15 along the during the rotation of the steering wheel 11 spatially ramp-like rising and falling guideway IIa roll, the ejection lever is pivoted about its pivot axis S and thereby causes the ejection operation by pressing against the rear wall 3b of the drawer 3. In FIGS. 10 and 11, a housing part which covers the front is not shown, on which the pivot bearing of the ejection lever 7 about the axis S is also realized.

Individual steps of the overall process are shown in FIGS. 12 to 19.

In Figure 11, the guideway IIa is exemplified, wherein upon rotation of the steering wheel 11 in the clockwise direction from the shown maximum pivoting position of the ejection lever 7 successively the sections A, B, C and D of the guideway IIa as a support surface for the support roller 15 are effective. In this direction of rotation about the axis of rotation R of the steering wheel 11 is characterized in a rotation with section A over an angle of about 120 degrees, a uniformly sloping course, with section B over an angle of about 100 degrees a consistently flat course with pivoted ejection lever 7, with section C over an angle of about 120 degrees a uniformly increasing course and with section D over an angle of about 20 degrees again a consistently flat course effective. The number of different sections, their gradients and their angular ranges can be specified individually depending on the guideway or inserted steering wheel. The steering wheel can be easily replaceable for a corresponding change in the pivoting characteristic.

The ejection device 6 is equipped for attachment to trusses with, for example, 4 attachment clips 16 arranged outside in corner regions.

FIGS. 12 to 19 show the interaction between a drawer 3 and one on a rear wall of the body 2 mounted ejection device 6, which has a rotatably drivable control wheel 11 and an ejection lever 7 which is pivotally received on a bearing element 17. The ejector 6 is shown only schematically without drive unit or not to scale. FIG. 12 shows the state before the ejection movement starts with the ejection lever 7 in the rest position, in which a support foot 15 with a roller 15a arranged thereon can roll along a guideway IIa during the rotation of the steering wheel 11 and according to the embodiment of the guideway IIa the pivotal position of the ejection lever 7 around a pivot axis S (shown only in FIG. 12). First, at the beginning of the ejection movement during rotation of the steering wheel in a clockwise direction, the roller 15a rolls along a flat rising portion of the guideway IIa until, according to FIG. 17, a maximum pivotal position of the ejection lever 7 is not quite reached. With reaching a first edge K (Figure 17 and Figure 18) of the guideway IIa and a subsequent relatively steeply sloping portion of the guideway IIa up to another edge K (Figure 18) finds a release of the contact between an example here or not necessarily functional bent contact portion 18 at the front end of the ejection lever 7 from a rear wall of the drawer instead. Immediately thereafter, the ejection lever 7 according to the falling edge of the guideway IIa, as shown in FIG 19, swung back again. The drawer 3 can move a little further into the position shown in FIG 19 after release from the ejection lever 7 and remain there.

The guideway IIa according to the embodiment of FIGS 12 to 19 has substantially two different sections, wherein for pivoting the ejection lever 7 a uniformly flat rising guideway is formed over a first portion, for example, the steering wheel 11, an angular segment of about 300 to 320th Makes degrees. The second section of the guideway IIa, which relates to the second steeply sloping portion of the guideway, to pivot the ejection lever 7 back relatively quickly extends over a comparatively small angular range of, for example, 40 to 60 degrees of angle.

FIGS. 20 to 26 show in highly schematic form a piece of furniture without upper part in the interaction between a drawer 3 and an alternative ejection device 6 according to the invention attached to a rear wall of the body 2. The ejection device 6 comprises an ejection lever 7 and a rotationally drivable cam wheel 19 with an eccentric arrangement of a drive axis R. The ejection device 6 is shown only schematically or without a drive unit and not to scale. A support foot 15 of the ejection lever 7 is supported on a guide track 19 a on a radial narrow side of the cam wheel 19.

With a driven rotation of the cam wheel 19 in the clockwise direction, the drawer 3 from the closed position shown in FIG 20 via the pivoting position of the ejection lever 7 according to Figure 21 and Figure 22 to the maximum pivoting position of the ejection lever 7 according to Figure 23, the drawer 3 driven ejected. The drawer 3 moves after the discharge of the ejection contact with the ejection lever 7 to a standstill position as shown in FIG 26. The ejection lever 7 pivots after the abolition of the ejection contact with the drawer 3 according to the course of the guide track 19a and the rotational movement of the cam wheel 19 back in a starting position with approximately parallel to a rear wall 2a of the body 2 aligned ejection lever 7 (Figure 26). With only one revolution of the cam wheel 19 is a complete pivoting movement with off and then pivoting back of the ejection lever. 7 allows. The guide track 19a of the cam wheel 19 likewise has sections A, B, C and D corresponding to the sections A, B, C and D of the guide track of the steering wheel 11 according to FIG. 11 (see FIG. 23).

LIST OF REFERENCE NUMBERS

1 furniture

2 corpus

2a rear wall

2b sidewall

2c side wall

3 drawer

3a front end

3b rear wall

4 pull-out guide

5 front gap

6 ejection device

7 ejection lever

7a investment page

8a traverse

8b traverse

9a receiving flange

9b receiving flange

10 support pin

11 steering wheel

IIa guideway

IIb external toothing

12 base frames

13a electric motor

13b electric motor

14 gears

15 outrigger foot

15a roll

16 mounting bracket

17 bearing element

18 investment section

19 cam wheel

19a guideway

Claims

Claims:

1. A device for ejecting a furniture part (3), which is movably received on a stationary furniture part (2), with a via a drive unit (13 a, 13 b) pivotable ejection element (7) on one of the two furniture parts (2, 3) is attached and temporarily in contact with the other furniture part to eject the movable furniture part (3), with the intention that during a discharge operation of the contact between the discharge element (7) and the other furniture part is repealed and with control means for specifying a Schwenkverlaufs of Ejection element (7), characterized in that on the ejection element (7) fixedly positioned support means (15, 15a) are provided, which in a discharge operation on a guide portion (IIa, 19a) of the drive unit (13a, 13b) rotatable control ( 11, 19).

2. Device according to the preamble of claim 1, in particular according to claim 1, characterized in that via the drive unit (13a, 13b) rotatable control (11, 19) is provided, with which without reversing the direction of rotation of the control element (11, 19 ) the ejection element (7) is continuously repeatable from a starting position to a maximum pivoting position and back to the next starting position is pivotable.

3. Apparatus according to claim 1 or 2, characterized in that an overload protection is provided, with which during the ejection process at a predetermined force on the ejection element (7), which counteracts a pivoting movement for ejecting the movable furniture part (3), a reversal of Rotation direction of the control

(11, 19) can take place.

4. Device according to one of the preceding claims, characterized in that the ejection element (7) from the starting position in the maximum pivoting position and back to the starting position with a maximum of one revolution of the control element (11, 19) is pivotable.

5. Device according to one of the preceding claims, characterized in that the support means (15, 15a) and the guide portion (IIa, 19a) are formed coordinated with each other to allow in each pivoting position of the ejection element (7) whose support.

6. Device according to one of the preceding claims, characterized in that the guide portion (IIa, 19a) is formed on the control element (11, 19) such that with the rotation of the control element (11, 19) the support means (15, 15a) on Guide section (IIa, 19a) roll or can slide along.

7. Device according to one of the preceding claims, characterized in that the guide portion (IIa, 19a) as with the rotation of the control element (11, 19) encircling track is formed.

8. Device according to one of the preceding claims, characterized in that the guide portion (IIa, 19a) is formed such that with the rotation of the control element (11, 19) portions (A, B, C, D) of the guide portion (IIa, 19a) with different courses become effective.

9. Device according to one of the preceding claims, characterized in that the guide section (IIa, 19a) comprises a flat and a steep course.

10. Device according to one of the preceding claims, characterized in that the control element (11) comprises a portion (IIb) with a tooth profile, via which a driving action of the drive unit (13a, 13b) on the control element (11) can be applied.

11. Device according to one of the preceding claims, characterized in that the control element is designed as a cam disc (19).

12. Device according to one of the preceding claims, characterized in that sensor means for detecting a triggering action for ejecting the movable furniture part (3) are provided.

13. Furniture with a relative to a fixed furniture part movable furniture part, wherein a device according to one of the preceding claims is present.