This application claims the benefit under 35 USC § 119(a)-(d) of German Application No. 10 2017 128 749.3 filed Dec. 4, 2017, the entirety of which is incorporated herein by reference.
The present invention relates to a device for connecting a push element to a guide rail, a guidance system, and a piece of furniture or household appliance.
Systems or connecting devices for the connecting of a push element of a piece of furniture or a household appliance to a guide rail of a guidance system of a piece of furniture or household appliance are known.
The connecting devices are used, for example, for guidance systems as so-called partial extensions with two guide rails or full extension with three guide rails, in regard to a pull-out structural unit, wherein the rails can be moved telescopically to each other.
Generally, a push element such as a drawer, a shelf, a cooking product carrier or the like is movably received by precisely two separate but identical components of a partial extension or a full extension. The respective structural unit of the extension guides is preferably secured to an inner side of a furniture body or a housing of a household or kitchen appliance.
Since the attachment of a push element of a piece of furniture or a household appliance to a guide rail must stand up to high demands in terms of functionality, user friendliness, and economy, modifications are needed in this regard.
The problem which the present invention proposes to solve is to provide a connecting device for a movable push element, a guidance system and a piece of furniture or a household appliance which is improved in regard to a technically advantageous connecting of the push element to a guide.
The present invention starts from a device for connecting a movable push element of a piece of furniture or a household appliance, such as a kitchen appliance, to a guide rail of a guidance system of the piece of furniture or the household appliance, wherein the device is designed to be mounted on the movable push element. Preferably, the connecting device is designed so that it is fastened, in particular, with a tool, on the push element. In the condition of the connecting device mounted on the push element, the push element can be manually connected to the guide rail in the correct position, firmly yet detachably, and dismounted once again.
The crux of the present invention is that the device comprises a locking arm with a locking member, wherein in the mounted condition of the device the locking member is designed to be coupled with a locking element, especially with a locking element of the guide rail, wherein the locking arm is provided as an elongated element, wherein the locking arm is connected by two spaced-apart attachment members to the remainder of the device, especially by precisely two attachment members, wherein the attachment members engage with the locking arm transversely, especially perpendicularly, to a longitudinal extension of the locking arm, wherein the attachment members are elastic, so that the locking arm is movable, for example, displaceable, in the region of the locking member in a direction transverse to the longitudinal extension of the locking arm and in the direction of the attachment members.
In the mounted condition of the device according to the present invention, a longitudinal axis of the elongated element of the locking arm extends advantageously at least approximately parallel to a direction of movement of the push element and/or a direction of movement of the guide rail. The guide rail, e.g., is a push element rail or a movement rail of the furniture guidance system.
Preferably the locking arm is joined as a single piece via the attachment members to the remaining portion of the connecting device. Accordingly, the locking arm, the attachment members and the remaining portion of the connecting device are preferably fashioned as a single piece, which is advantageous in terms of manufacturing technology and economy.
The movability of the locking arm relative to the remaining portion of the connecting device transversely to its longitudinal extension is determined substantially by a first or linear motion component. A subordinate second motion component can be a swiveling or rotary motion component, which is superimposed onto the first linear motion component. The attachment members realize a mounting of the kind of a jointly moving swivel bearing site of a locking arm swiveling about a swivel axis. With the attachment members, an articulation is provided between the locking arm and the remaining portion of the connecting device. The two attachment members constitute a kind of four-link arrangement for the movement mounting of the locking arm. Preferably, at least two separate pivot points on the locking arm and on the remaining portion of the connecting device are formed with the attachment members. With the single-piece design of the locking arm on the remaining portion of the connecting device via the attachment members, an elastic movement or a spring-loaded movement is possible, which is nevertheless characterized substantially as a linear movement or a pushing movement. Advantageously, with the relatively easily formed attachment members, there is no need for an additional or separate component on the remaining device, such as a linear acting spring element, which accomplishes the elastic movement of the locking member, or a comparatively complex linkage arrangement.
On the other hand, despite the single-piece attachment members, essentially no swivel movement is produced, but instead a pushing movement of the locking member, which is advantageous in terms of a secure connection in different connection positions, looking in the sideways direction of the push element. This is because the connection between locking member and locking element must allow for an equalizing of tolerances, which usually occurs in practice. The secure connection or coupling of push element and guide rail is always achieved by the correct latching of locking member and locking element, even when a slight deviation from an ideal position of the push element and/or the guide rail occurs in the direction transversely to the longitudinal extension of the locking arm or sideways, which may be due in practice to installation tolerances, for example.
Advantageously, therefore, precisely one locking member on the locking arm may be enough to establish a secure coupling or interlocking with the locking element, which is preferably multiple-toothed looking in the longitudinal direction of the locking arm, in every possible relative position of push element and guide rail.
In the known arrangements it is a disadvantage, among other things, that a plurality of locking members or a complex contour of the locking member is necessary in order to interact with a locking contour, e.g., on the guide rail side, which necessarily provides a plurality of different locking positions. Furthermore, the quality of locking or retention of the achievable interlocking in such arrangements decreases noticeably under deviations from an ideal relative position of push element and guide rail in the sideways direction. This is because, in the known arrangements, an orientation of the locking member relative to the locking element firmly present on the guide rail is changed during a swivel movement of a locking arm with a locking member with increasingly larger swivel deflections of the locking arm. The result is an increasingly worse engagement or interlocking of the segments being coupled together. The coupling quality in the prior art diminishes with increasing swivel deflection of the locking member. This drawback is eliminated by the present invention.
The attachment members, for example, comprise a first attachment member, which is connected to the locking arm at a first site, looking in the lengthwise direction of the locking arm. A second attachment member is connected to the locking arm at a second site, looking in the lengthwise direction of the locking arm, the second site being further away from the locking member than the first site in the lengthwise direction. The first site and the second site are separated from one another by a few millimeters, for example, such as around 5 millimeters. The overall length of the locking arm amounts to around 6 to 8 centimeters, for example. The two attachment members engage with the locking arm over its entire length, looking in the region adjacent to the midlength of the locking arm.
It is furthermore advantageous that the locking arm comprises a control element, which is angled relative to the remaining elongated element of the locking arm so that the locking arm is movable by means of the control element. The control element forms a lever arm with respect to the locking arm with a torque action, so that the locking arm can be moved relative to the remaining connecting device about a bearing point of the locking arm formed with the attachment members. Preferably, the locking arm has a front part-length segment, on which the locking member is formed. The locking member is preferably present at a free end of the locking arm or the front part-length segment. The front part-length segment is preferably substantially straight in configuration. The locking arm furthermore has a rear part-length segment, which is preferably likewise straight in configuration and angled relative to the front part-length segment, and this comprises the control element. Both part-length segments have preferably roughly the same length. The two attachment members are preferably connected to the front part-length segment with the locking arm, especially in proximity to the segment in which the front and the rear part-length segments meet. This segment forms, for example, an angling of the locking arm between the two part-length segments.
Basically, in addition to the two attachment members, at least one further attachment member may be present or engaging with the locking arm.
The control element enables an easier manual decoupling of the locking arm or the locking member from the locking element. The control element accordingly serves for decoupling the locking member, in order to then move the push element away from the guidance system.
On the other hand, during the installing of the push element, the coupling movement of the locking arm occurs, in particular, by a self-acting deflection movement of the locking arm when the push element is mounted on the respective guide rail, without having to act on the control element. Since the locking member is pressed against a segment of the locking element when the push element is mounted on the guide rail, and is thereby somewhat elastically deflected and moved past the locking element into a final installed position of the push element on the guide rail until a coupling or locking is established. The interlocking of locking member and mating segment on the locking element occurs with the return movement of the locking arm on account of the previously elastically deformed attachment members, since these produce temporarily a pretensioning of the locking arm due to the deflecting. A force exerted from the outside is needed for the deflection movement of the locking arm from a base or neutral position and for the movement of the locking member past the segment of the locking element into the preliminary latching and final locking position. This is done by an installer bringing up the push element with the connecting device arranged thereon as a whole in correct orientation to the piece of furniture, placing it thereon and moving it into the final position. Generally, two guide rails of a respective right and left structural unit of the guidance system are present on the piece of furniture or on the household appliance or their opposite side walls. For the installing, the respective guide rails on the piece of furniture or household appliance are pushed out so that it is possible to place the push element on the guide rails.
The angled arrangement of the control element on the locking arm is mechanically advantageous on account of a leverage action on the locking arm, as well as easy handling.
A further benefit is characterized in that during a positioning of the locking arm the locking arm performs both a movement transversely to its longitudinal extension and/or along its longitudinal extension, especially parallel to its longitudinal extension, wherein during a positioning a movement path transversely to its longitudinal extension is comparatively larger than a movement path lengthwise to its longitudinal extension. In the deflecting movement under consideration of the locking arm during the installation process, the ratio of the movement path in the transverse direction to a movement path in the lengthwise direction is a maximum in the optimal case or the movement path in the lengthwise direction is zero millimeters, for example. The movement path in the transverse direction is, for example, 2 to 5 millimeters. In the minimal lengthwise movement, no movement occurs for the locking arm and especially for the locking member in the lengthwise direction. This means that ideally a pure transverse movement will occur, e.g., a transverse pushing movement of the segment or the region of the locking arm with the locking member relative to the longitudinal extension of the locking arm, or the lengthwise movement will be minimal.
A positioning or moving of the locking arm is done, for example, by a user grasping the connecting device, for example, acting on the control element, for example, during a decoupling, or during an installing of the push element on the guide rail.
It is also advantageous that the locking member is present, in particular, as a single locking tooth. In this way, a reliable and stable latching is accomplished with a simple shape of the locking member. Just one locking tooth can be provided in a more stable and simple configuration than many smaller locking teeth.
One advantageous modification of the present invention is provided in that the attachment members are designed substantially as cuboidal wall elements. The cuboidal shape pertains, in particular, to a contour looking from above at respective surface sides of the attachment members. Each of the two attachment members has a comparatively slight thickness as compared to the length of the attachment member, e.g., a first attachment member has a thickness of around 0.5 to 1 millimeter and a second attachment member e.g. around 2 millimeters. A spacing between the two attachment members in the longitudinal direction on the locking arm is, e.g., around 4 to 6 millimeters. A pivot of the first attachment member on the remaining locking arm has a lesser distance from the locking member, looking in the lengthwise direction of the locking arm, than a pivot of the second attachment member on the remaining locking arm. The attachment members are accordingly preferably offset in the longitudinal extension of the locking arm. A coinciding articulation of the two attachment members on at least one side of the two attachment members, such as on the locking arm or on the opposite portion of the base component, is likewise conceivable.
The attachment member is configured, for example, as a strip or, for example, a platelet or a blade. The attachment members have a straight or preferably in each case a curved shape, being curved, for example, in the opposite direction from each other. An attachment member is configured, for example, as a thin, wall-like web segment.
The first attachment member has one side with a concave curve directed toward the locking member in the lengthwise direction of the locking arm, and accordingly an opposite convex curved side facing away from the locking member.
The second attachment member has one side with a convex curve directed toward the locking member in the lengthwise direction of the locking arm, and accordingly an opposite concave curved side facing away from the locking member.
It is also advantageous that a thickness of an attachment member decreases in the direction of the locking arm. The thickness decrease preferably occurs gradually or continuously over the length of the attachment member.
The locking arm and the attachment members preferably belong to a base component of the connecting device, which is designed as a single piece. The connecting device preferably furthermore comprises an adjusting component, with a control element and a height adjusting element, which can be releasably attached to and swiveled on the base component.
One attachment member is preferably oriented at a slant or transversely to the lengthwise direction of the locking arm in the extension of the attachment member. One end of an attachment member is connected on the locking arm and an opposite end of the attachment member is connected on the remaining portion of the base component.
Between the two ends of the attachment members facing away from the locking arm, there is preferably arranged a wall segment of the base component of the connecting device that joins these ends. The connecting wall segment of the base component is configured such that, upon elastic deformation of the attachment members, when the locking arm is moved or pushed, the wall segment behaves at least almost mechanically rigid or is not significantly elastically deformed. This realizes a firm mounting of the two attachment members at their respective end facing away from the locking arm. The attachment members are accordingly elastic, such that when the locking arm is moved or pushed the attachment members are elastically deformed between their ends engaging with the locking arm and engaging with the remaining base component. The deformation occurs when the push element is mounted on the guide rail and when the push element is lifted by manual effort, for example, of an installer or user.
Both the ends of the two attachment members engaging with the remaining base component and the ends of the attachment members engaging with the locking arm are connected to the remaining base component and the locking arm over their entire height, i.e., transversely to the longitudinal extension of the locking arm and transversely to the movement or pushing direction of the locking arm. The attachment members preferably have the same height throughout their length.
Another advantageous embodiment of the present invention results in that a thickness of one attachment member is larger than a thickness of the other attachment member. By the thickness of an attachment member is meant a material thickness or the thickness over the major extension or an averaged or mean thickness of the attachment member.
The first attachment member preferably has a lesser mean thickness than the second attachment member or vice versa.
Preferably the first attachment member has a relatively slight thickness at its end connected to the locking arm of e.g. 0.5 to 1 millimeter and a thickness of around 2 millimeters at its other end.
Preferably the second attachment member has a thickness at its end connected to the locking arm of e.g. around 2 millimeters and a thickness of around 2.5 to 3 millimeters at its other end.
In particular, with the respective thickness and/or the shape of the attachment members it is possible to adapt the elastic behavior of the two attachment members differently from each other and relative to each other so that precisely the desired movement mounting of the locking arm is possible. When a force acts from the outside on the locking arm, resulting in a movement of the locking arm relative to the remaining portion of the base component, the attachment member with the lesser thickness is elastically deformed in a different way, such as more strongly or at an earlier time, than the thicker attachment member. Besides the thickness of the attachment members, the respective shape of the attachment members, especially a curved shape, influences the elastic behavior of the attachment members or the movement of the locking arm.
It is furthermore advantageous that the device comprises a locking element which is present as a single structural part separate from the remaining device, wherein the locking element comprises a mounting element, the mounting element being designed to mount the locking element on an end face of a guide rail, wherein the locking element is designed to interlock with the locking member of the device in the mounted condition of the device.
Preferably the connecting device comprises on the one hand the main piece with the base component and the adjusting component, which are plugged together for example, for mounting on the push element, especially in the region of a push element bottom side, and on the other hand the locking element, which can be premounted on the guide rail. The locking element which can be preferably attached onto the end face of the guide rail, such as an element made of a plastic material, furthermore forms in the mounted condition on the guide rail an engaging section in the area of the guide rail end face, which engaging section engages with engaging means on the base component in the properly interacting connection condition of the main piece and the locking element. The engaging section and the engaging means are adapted so that, upon reaching the interlocked condition and in the locked condition of locking member and locking element, a play is made possible between the engaging means and end stops of the engaging segment in a height direction and/or in a side direction of the connecting device running transversely to it.
Thus, a sideways play and/or a play in the height direction of the push element mounted with the device on the guide rail is possible.
Furthermore, a device for connecting a movable push element of a piece of furniture or a household appliance, such as a kitchen appliance, to a guide rail of a guidance system of the piece of furniture or the household appliance is proposed. According to the present invention, the device comprises spring means, wherein the spring means are present such that, in the mounted condition of the device on the push element, the coupling of the locking member to the locking element is pretensioned in a direction along the longitudinal extension of the locking arm. The spring means are formed preferably on the locking element as two elastically deflectable spring webs, for example.
Advantageously, the spring means make possible an equalizing of tolerances, especially an equalizing of the spacing between a front end of the push element and an end face of the guide rail. In practice, for example, slight deviations from an ideal installation condition of the push element on the guide rail may occur, due to the manufacturing process, so that different spacings of the respective segments may occur in the low millimeter range. Such deviations can be equalized by the spring means, so that a connection free of play, or an installation without clamping, is possible with no undesirable vibration in the condition or use.
Furthermore, a guidance system for guiding the movement of a push element of a piece of furniture or a household appliance, such as a kitchen appliance, is proposed, with a guide rail, which can be associated with the push element, wherein a device according to one of the aforementioned embodiments is present.
The present invention further extends to a piece of furniture or household appliance with a guidance system of the aforementioned kind. In this way, the mentioned benefits can be realized on the piece of furniture or household appliance.
Further features and benefits of the present invention are explained more closely with the aid of the exemplary embodiments of the present invention as represented in the figures. Specifically, there are shown:
In part, the same reference numbers are used below for corresponding elements of different exemplary embodiments.
If the drawer 3 uses a rail partial extension instead of the rail full extensions 6, 7, the drawer 3 in the maximum pulled-out condition cannot be moved so far out from the interior of the furniture body 2 in the direction P1, as is possible with the rail full extensions 6, 7 per the representation in
The rail full extension 6 screwed to the side wall 4 on the inside is located at the same vertical height as the rail full extension 7 screwed to the side wall 5 and hidden from view in
A further drawer correspondingly guided by rail full extensions 8 and 9 can be accommodated in the furniture body 2 above the drawer 3, not being shown in
The drawer 3 comprises oppositely situated drawer side walls 10, 11, each comprising a constructed hollow chamber frame. Furthermore, the drawer 3 comprises a front element 12, a rear wall 13 situated opposite in the horizontal direction, and a horizontally extending drawer bottom 14, which reaches as far as the drawer side walls 10, 11, the front element 12 and the rear wall 13 or is joined to them.
The hollow chamber frame 15 made preferably from a bent sheet metal material has an external housing 15a and an internal structure 15b, so that the full extension 16 can be recessed into the internal volume of the hollow chamber frame 15. At an inner side of the hollow chamber frame 15, it is configured to receive a lengthwise edge of the drawer bottom 14 in its lower segment.
The full extension 16 according to the present invention formed as a structural unit of the guidance system comprises three mutually telescopic guide rails or a body rail 17, a center rail 18 and a push element rail 19.
The center rail 18 is configured as a hollow profile.
A push element to be moved such as the drawer 3 is coupled or connected to the push element rail 19, for example, it is secured to the hollow chamber frame 15, whereas the body rail is connected to the stationary part of the furniture. If the full extension 16 is being used as a subfloor guide, a bottom side of a push element or its bottom will be braced against a top side 19a of the push element rail 19. A hook element 19b protruding upward at the rear end of the push element rail 19 forms an end stop for a segment of a rear outer side of the push element, wherein for the exact positioning an angled segment of the hook element 19b parallel to the top side 19a engages with a suitably provided recess in the rear outer side of the push element. In this way, the rear region of the full extension 16 in the condition of use is also established in
Furthermore, the full extension 16 comprises a first or lower carriage 20 with bearing bodies arranged thereon, the carriage 20 acting between the body rail 17 and the center rail 18 for a load-transmitting relative movement of the rails 17, 18.
Moreover, the full extension 16 comprises a second or upper carriage 21 with bearing bodies arranged thereon, the carriage 21 acting between the center rail 18 and the push element rail 19 for a load-transmitting relative movement of the rails 18, 19.
Pins 32 are present on a vertically positioned, inwardly pointing narrow side of a rail body 31 of the body rail 17, by which pins a movement mechanism 22 of the full extension 16 can be attached, for example, for the ejecting and/or retracting of the drawer 3.
The body rail 17 includes two L-shaped fastening elements 33 and 34, the fastening elements 33 and 34 serving for the fastening or securing of the full extension 16 to an inner side of the side wall of a body, such as the inner side 5a of the side wall 5 of the furniture body 2 of the piece of furniture 1.
In the exemplary embodiment of
The guide rails 17, 18, 19 preferably consist of a sheet metal material, which is formed into the end product of the respective guide rail from the flat sheet metal material, for example, by a stamping and bending process.
In order to limit a relative movement of the lower carriage 20 and the upper carriage 21 with respect to the center rail 18 in the longitudinal extension of the center rail 18 along a central longitudinal axis S (see
In the assembled full extension 16, the bearing bodies received on the carriages 20, 21 run on the outwardly directed sides of the center rail 18 or on the horizontal wall sections 23, 24 and the side wall sections 25-28. The lower carriage 20 engages by its segments 20a and 20b carrying the bearing bodies on the outside of the horizontal wall section 24 and the side wall sections 27, 28.
The upper carriage 21 engages by its segments 21a and 21b carrying the bearing bodies on the outside of the horizontal wall section 23 and the side wall sections 25, 26.
Accordingly, the respective corresponding bearing bodies of the lower carriage 20 roll along the distal side of the lower horizontal wall section 24, on the outer side of the side wall section 27 and on the outer side of the side wall section 28.
The respective corresponding bearing bodies of the upper carriage 21 roll along the distal side or the outer side of the upper horizontal wall section 23, on the outer side of the side wall section 25 and on the outer side of the side wall section 26.
The bearing bodies of the carriages 20, 21 are preferably outwardly cylindrical bearing bodies or roller bearing bodies such as bearing rollers or bearing needles.
The center rail 18 formed from an originally flat and level metal sheet is formed as a hollow profile and has a bonded connection or a welded connection or narrow weld seam 29 over its length along the longitudinal axis S. The weld seam 29 produced preferably with a continuous laser method joins on one side of the center rail 18 narrow, blunt abutting edges of a lower part region and an upper part region of the center rail 18.
The hollow profile form of the center rail 18 enables a mechanically highly stable center rail 18, especially one that is bending and torsion stiff. The center rail 18 is furthermore compact and space-saving and material-saving in terms of its configuration.
Accordingly, a corresponding connecting device 37 according to the present invention acts on the rail full extension 6 needed for the movement of the drawer 3 and not shown in
The components of the connecting device 37 consist preferably of a plastic material.
A main piece 39 of the connecting device 37 is screwed at the bottom to the drawer 3 or to a bottom side of the drawer bottom 14 in the region of a front bottom corner area, for example, with screw fasteners, such as two screws 38, which reach through prepared openings in the main piece 39 and are screwed into the drawer bottom 14 underneath. A fastening of the main piece 39 to the front element 12 at the back side is likewise possible.
The connecting device 37 comprises, besides the main piece 39, a locking element 40, the main piece 39 and the locking element 40 being two separate components.
The main piece 39 serves for fastening to the push element or to the drawer 3 and the locking element 40 is fastened or firmly attached onto the push element rail 19 at its front end side (see
The connecting device 37 comprises a locking arm 41, with a locking member 42, on the main piece 39, which locking arm can move relative to the remaining portions of the main piece 39. The locking member 42 is preferably configured as a locking tooth or with a tooth-shaped contour.
The locking arm 41 is divided into a front arm segment 41a and a rear arm segment 41b. The two arm segments 41a, 41b are each substantially straight and provided in a middle segment, relative to the length of the locking arm 41, with an angling 43, so that the two arm segments 41a, 41b are oriented at an angle to each other.
In the base position of the main piece 39 represented per
The rear arm segment 41b extends away from the receiving area AB. The locking arm 41 is only attached to the remaining portion of the main piece 39 by two web or arm-shaped attachment members 44 and 45, the attachment members 44 and 45 being configured on the inner side of the front arm segment 41a near the angling 43.
The first attachment member 44 is situated closer to the locking member 42 than the second attachment member 45. Both attachment members 44 and 45 are elastically deformable, which makes possible an engaging and disengaging movement of the locking arm 41 on the locking element 40. A movement of the front end of the locking arm 41 or the front arm segment 41a with the locking member 42 occurs in the direction P3 and P4 or transversely to the longitudinal extension LE of the locking arm 41 and in the direction of the attachment member 44, 45.
For the desired kinematics, the first attachment member 44 has a corresponding configuration and dimensioning, with a lesser thickness at the end connected to the locking arm 41 and a greater thickness at an opposite end, which is connected to a rigid wall 53 of the main piece 39.
The orientation of the first attachment member 44 is slanting to the longitudinal extension LE of the locking arm 41. The point of the connection of the first attachment member 44 on the rigid wall 53 lies in the longitudinal extension LE closer to the locking member 42 than the point of the connection of the first attachment member 44 on the locking arm 42. The first attachment member 44 in the base condition of
The further second attachment member 45 present for the elastic deflection movement of the locking arm 41 is situated on the locking arm 41 somewhat further away from the end of the locking arm 41 having the locking member 42. The attachment member 45 has a somewhat greater thickness than the first attachment member 44. Furthermore, the attachment member 45 is convex curved on the side pointing in the direction of the locking member 42. The opposite side of the attachment member 45 is accordingly concave curved.
The deformation behavior of the two attachment members 44 and 45 is attuned to the connecting device 37 such that, for example, when a force K is acting from the outside on a control element 46 of the arm segment 41b, the locking arm 41 is moved such that the region of the locking arm 41 on which the locking member 42 is present performs an at least almost linear movement transversely to the longitudinal extension LE of the locking arm or in the direction P3. The movement of the locking member 42 in the direction P3 also occurs during the installation described further below. Upon partial slackening or absence of the force K acting from the outside on the control element 46 or the locking member 42, the locking arm 41 returns in corresponding manner. Accordingly, the front end region of the locking arm 41 on which the locking member is present returns in linear manner in the direction P4. This occurs due to the elastic pretensioning of the two attachment members 44, 45.
In the mounted condition of the locking element 40, it encloses the front end of the push element rail 19 and, by an angling 50 of the locking element 40, a front end segment of a side wall 19c of the push element rail 19. The angling 50 has a stopping surface 51 oriented at right angles to the side wall 19c and protruding beyond it. Furthermore, the angling 50 has a side notch 52 on an outer side, which outer side in the attached condition is offset in parallel with the side wall 19c, which notch is designed for a matching engagement with the locking member 42.
The connecting and releasing of a push element or the drawer 3 to or from a guide rail or the push element rail 19,
After placing the rear portion of the drawer 3 or the drawer bottom 14 on the two push element rails 19 of the rail full extensions 6, 7, sticking out from the furniture body 2 and projecting to the front, the drawer 3 is pushed in the direction P2 or P5 and lowered in front until the two connecting devices 37 come close to the front end of the push element rails 19. In the following, the interplay on one side at the bottom side of the drawer bottom 14 shall be explained. A corresponding interplay occurs at the same time on the other side.
Upon pushing the drawer 3 in the direction P5, a slanting approach surface 49 on the locking element 40 comes into matching surface contact with the slanting latching face 42a on the locking member 42. The locking arm 41 here is somewhat deflected under elastic deformation of the attachment members 44, 45 in the direction P3, so that upon further pushing in the direction P5 the deflected locking member 42 slides along one side surface 50a of the angling 50 until the locking member 42 engages with spring action in the notch 52, due to the pretensioned attachment members 44, 45. A prelatching position is reached per
If the drawer 3 is now pushed by a few millimeters further in the direction P5, the locking arm 41 is further deflected in the direction P3, since a further surface 52b of the notch 52 slanted toward the longitudinal extension presses against the latching face 42a.
At the end of the surface 52b, the pretensioned locking arm 41 with the locking member 42 gets free of the notch 52 and the pretensioned locking arm 41 engages in the direction P4 (see
To release the interlocking, a person presses on the control element 46 with a force K, whereby the locking arm 41 in the region of the locking member 42 is deflected in a linear manner or by pushing in the direction P3 and the interlocking is released. The drawer 3 is free from the locking element 40 when both connecting devices 37 are actuated at the same time per
Number | Date | Country | Kind |
---|---|---|---|
10 2017 128 749 | Dec 2017 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
5580139 | Grabher | Dec 1996 | A |
5632541 | Uthoff | May 1997 | A |
7549712 | Booker | Jun 2009 | B2 |
8528998 | Leal | Sep 2013 | B2 |
8696078 | Gasser | Apr 2014 | B2 |
8979223 | Huang | Mar 2015 | B2 |
10314396 | Hsu | Jun 2019 | B2 |
20040239219 | Kim et al. | Dec 2004 | A1 |
20130257244 | Salice | Oct 2013 | A1 |
20140175965 | Salice | Jun 2014 | A1 |
20160198855 | Liang | Jul 2016 | A1 |
20160242543 | Mohr | Aug 2016 | A1 |
20170095082 | Lucas | Apr 2017 | A1 |
20190239643 | Lucas | Aug 2019 | A1 |
Number | Date | Country |
---|---|---|
203 05 467 | Sep 2004 | DE |
11 2011 101 781 | May 2013 | DE |
10 2013 114 722 | Nov 2014 | DE |
0 695 523 | Feb 1996 | EP |
WO-2010040273 | Apr 2010 | WO |
Entry |
---|
European Search Report (Application No. 18209758.4) dated Jan. 23, 2019—8 pages. |
German Search Report (Application No. 10 2017 128 749.3) dated Oct. 15, 2018. |
Number | Date | Country | |
---|---|---|---|
20190166996 A1 | Jun 2019 | US |