EP3580420B1 - Möbelscharnier mit einem sperrelement für einen lineardämpfer - Google Patents

Möbelscharnier mit einem sperrelement für einen lineardämpfer Download PDF

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Publication number
EP3580420B1
EP3580420B1 EP17711378.4A EP17711378A EP3580420B1 EP 3580420 B1 EP3580420 B1 EP 3580420B1 EP 17711378 A EP17711378 A EP 17711378A EP 3580420 B1 EP3580420 B1 EP 3580420B1
Authority
EP
European Patent Office
Prior art keywords
hinge
furniture
locking
linear damper
blocking
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP17711378.4A
Other languages
German (de)
English (en)
French (fr)
Other versions
EP3580420A1 (de
Inventor
Ertaç Capur
Scott Ortega
Ufuk KIZILTAN
Daniel Kenneth BUCK
Himmet TANRIVERDI
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Samet Kalip Ve Maden Esya San Ve Tic AS
Original Assignee
Samet Kalip Ve Maden Esya San Ve Tic AS
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by Samet Kalip Ve Maden Esya San Ve Tic AS filed Critical Samet Kalip Ve Maden Esya San Ve Tic AS
Publication of EP3580420A1 publication Critical patent/EP3580420A1/de
Application granted granted Critical
Publication of EP3580420B1 publication Critical patent/EP3580420B1/de
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D11/00Additional features or accessories of hinges
    • E05D11/10Devices for preventing movement between relatively-movable hinge parts
    • E05D11/1028Devices for preventing movement between relatively-movable hinge parts for maintaining the hinge in two or more positions, e.g. intermediate or fully open
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05FDEVICES FOR MOVING WINGS INTO OPEN OR CLOSED POSITION; CHECKS FOR WINGS; WING FITTINGS NOT OTHERWISE PROVIDED FOR, CONCERNED WITH THE FUNCTIONING OF THE WING
    • E05F5/00Braking devices, e.g. checks; Stops; Buffers
    • E05F5/006Braking devices, e.g. checks; Stops; Buffers for hinges having a cup-shaped fixing part, e.g. for attachment to cabinets or furniture
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D11/00Additional features or accessories of hinges
    • E05D11/10Devices for preventing movement between relatively-movable hinge parts
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05FDEVICES FOR MOVING WINGS INTO OPEN OR CLOSED POSITION; CHECKS FOR WINGS; WING FITTINGS NOT OTHERWISE PROVIDED FOR, CONCERNED WITH THE FUNCTIONING OF THE WING
    • E05F5/00Braking devices, e.g. checks; Stops; Buffers
    • E05F5/06Buffers or stops limiting opening of swinging wings, e.g. floor or wall stops
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2201/00Constructional elements; Accessories therefor
    • E05Y2201/20Brakes; Disengaging means; Holders; Stops; Valves; Accessories therefor
    • E05Y2201/21Brakes
    • E05Y2201/212Buffers
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2201/00Constructional elements; Accessories therefor
    • E05Y2201/20Brakes; Disengaging means; Holders; Stops; Valves; Accessories therefor
    • E05Y2201/218Holders
    • E05Y2201/22Locks
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2201/00Constructional elements; Accessories therefor
    • E05Y2201/20Brakes; Disengaging means; Holders; Stops; Valves; Accessories therefor
    • E05Y2201/262Type of motion, e.g. braking
    • E05Y2201/264Type of motion, e.g. braking linear
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2800/00Details, accessories and auxiliary operations not otherwise provided for
    • E05Y2800/74Specific positions
    • E05Y2800/742Specific positions abnormal
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2900/00Application of doors, windows, wings or fittings thereof
    • E05Y2900/20Application of doors, windows, wings or fittings thereof for furniture, e.g. cabinets

Definitions

  • the invention relates to a furniture hinge for the articulated attachment of a furniture door, flap or the like to a furniture body, having a hinge body with a hinge cup and a hinge arm which is pivotably connected to the hinge cup and can be fastened to one of the furniture parts, and having a mounting body which can be attached to the other furniture part can be fastened, with a linear damper for damping at least the closing movement of the furniture hinge, with a blocking element which can be set in at least two switching positions and with which the linear damper is blocked in its pushed-in position in a blocking switching position and released in a damping switching position, wherein in the locking switch position a locking bar pivoted about an axis of rotation of the locking element is pivoted into the adjustment range of the linear damper or of a component connected to the linear damper and in the damping switch position it is pivoted out of the adjustment range is.
  • a damping element for installation in a hinge cup of a furniture hinge is known.
  • a spring-loaded damping cylinder can be introduced into the adjustment path of a section of the furniture hinge and a closing movement of the furniture hinge can thereby be damped.
  • the adjustment range and thus the damping effect of the damping element can be adjusted by means of an adjustment element that can be operated without tools, for example in predetermined stages.
  • a blocking section of the adjustment element is adjusted in its position such that a stop connected to the damping cylinder and moved with it when the damping cylinder is extended hits the blocking section in a first position of the adjustment element and is thereby fixed, and not in a second position.
  • the adjustment range and thus the damping effect of the damping element is correspondingly limited.
  • the blocking section and the stop are designed in such a way that the damping cylinder can also be pushed in when the adjustment element is in the first position.
  • the stop hits the blocking section of the adjusting element and the damping cylinder is not or only partially extended.
  • the WO 2013/149632 A1 shows two variants for the adjustment element.
  • the adjusting element is designed as a rotary arrangement with an operating part that can be adjusted about an axis of rotation and a blocking section. The axis of rotation is aligned perpendicular to the direction of movement of the damper cylinder and thus of the stop.
  • the blocking section is thus turned into a circular path along the direction of movement of the damper cylinder in the travel of the stop.
  • the spring force for extending the damper cylinder is thus transferred from the stop in the actuation direction of the adjusting element to its blocking section.
  • Appropriate latching devices must be provided which prevent accidental displacement of the adjustment element from its first position towards its second position due to the acting spring force.
  • the damping element or the locking devices are made from plastic at low cost and the adjusting element is actuated repeatedly, the locking devices can wear out, so that it is no longer possible to securely fix the damping cylinder against the acting spring force. It is then no longer possible to reduce the damping effect of the furniture hinge.
  • a linearly adjustable sliding element wherein a section of the sliding element can be inserted into the adjustment path of the stop of the damping cylinder transversely to its direction of movement.
  • the directions of movement of the adjustment element and the damping cylinder are therefore aligned transversely to one another, as a result of which an accidental adjustment of the sliding element by the spring force acting on the stop is reliably avoided.
  • a sliding element tends to get caught when being adjusted. This results in less operating comfort compared to rotary actuation.
  • the WO 2009/124332 A1 shows a damping device for a furniture fitting.
  • a bow-shaped actuating element is mounted in a hinge cup and is pivotably mounted about an axis of rotation. The axis of rotation is aligned with the pivot axis of the furniture hinge.
  • a rotor and a rotary damper are connected to the actuating element at the side and opposite. Both act in the pivoting direction of the actuating element.
  • the actuating element is introduced into the adjustment path of an articulated lever of the furniture hinge and is pivoted by this about its axis of rotation when the furniture hinge is folded in.
  • the pivoting movement is dampened by the rotary damper.
  • the rotor exerts a spring force that opposes the closing movement on the transfer actuator.
  • the actuating element When the furniture hinge is opened, the actuating element is thus moved back into its original position in the adjustment path of the articulated lever.
  • the rotor has recesses on its circumference, into which a locking element can be pushed by means of a linear slide. As a result, the adjustment path of the actuating element can be limited.
  • the design of the damping device with a rotary damper and a rotor is complex and correspondingly expensive.
  • a furniture hinge with a linear damper and a return spring is known.
  • the damper and the return spring counteract the closing of the furniture hinge. They are constructed separately and act on a common slider, which is placed in the adjustment path of a hinge arm.
  • the expansion of the spring can be blocked by a blocking element. This is designed, for example, as a sliding element.
  • the blocking element can also be designed as a hook, which can be pivoted about an axis aligned transversely to the direction of movement of the return spring and engages in the windings of the spring when actuated.
  • a simple and quick adjustment of the switching position of the blocking element can be made possible by the fact that the blocking element can be adjusted without tools.
  • the blocking element has a rotary body mounted so as to be rotatable about the axis of rotation of the blocking element, to which the locking bar and a handle are fastened, preferably formed, at an offset angle thereto.
  • the locking element can thus be oriented towards the linear damper, while the handle is oriented for easy access operation of the locking element.
  • the rotary body is mounted on a bearing bolt, that the bearing bolt is mounted in a locking element housing and that the locking bar and the handle are guided through openings in the locking element housing.
  • the rotary body, the locking bar and the handle are designed in one piece, for example as a plastic component that can be produced inexpensively.
  • the rotation of the locking bar is locked in the switching positions of the blocking element by at least one latching device.
  • the blocking element housing has at least one latching projection with which the blocking element housing can be fixed on the hinge pot of the furniture hinge. This ensures that the locking bar is precisely aligned with the linear damper in accordance with its respective switching position.
  • the locking bar has a contact bevel and a blocking surface opposite, that in the locked switching position and when the linear damper is pushed out, the contact bevel is aligned towards the linear damper or the component connected to the linear damper and that in the locking switch position and when the linear damper is pushed in, the blocking surface faces the linear damper or the component connected to the linear damper.
  • the blocking element can be actuated when the furniture door, flap or the like is open. Starting from the damping switching position of the blocking element, the linear damper is then pushed out. By switching the blocking element into its blocking switching position, the locking bar is pivoted into the path of travel of the blocking attachment. When the furniture door, flap or the like and thus the furniture hinge are subsequently closed, the linear damper is pushed together.
  • the blocking approach hits the starting bevel of the locking bolt with its approach bevel.
  • the approach bevel and the approach bevel form sliding surfaces along which the blocking approach slides past the locking bar.
  • the blocking shoulder and the locking bar are arranged laterally to one another in such a way that the blocking surface of the locking bar rests against the opposite blocking surface of the blocking shoulder. This blocks the linear damper from being pushed out the next time the furniture door, flap or the like, and thus the furniture hinge, is opened.
  • the blocking surface and the counter-blocking surface are preferably aligned transversely to the direction of movement of the linear damper and thus of the blocking shoulder. This avoids the linear damper being able to slide past the locking bar from its pushed-in position in the locked switching position or the locking element being displaced into its damping switching position by the restoring forces transmitted from the linear damper to the locking bar.
  • the design of the locking bolt and the blocking shoulder make it possible for the locking element to be operated when the furniture door, flap or the like is open, for the linear damper to also be pushed in when the locking element is in the locking switching position and for the linear damper then to be used the next time the furniture door, flap or the like is securely held in its pushed-in position.
  • the locking bar is elastic at least in the pivoting direction of the locking element, the locking bar can be pushed to the side in the locked switch position when the linear damper is pushed in by the approach bevel and run-on bevel sliding past one another. This clears the way so that the blocking shoulder can be guided past the locking bolt and the linear damper can be adjusted to its pushed-in end position.
  • the locking bar returns to its original position due to its elasticity, so that its blocking surface rests against the opposite blocking surface of the blocking attachment.
  • the linear damper is arranged and guided at least in some areas in a housing, that the hinge cup of the furniture hinge has a mounting area that is reduced in its cup depth and is closed off by a cover on the bottom side, that the housing in the mounting area attached to the cover of the hinge cup from the outside, that a movably mounted section of the linear damper is routed through an opening in the inner area of the hinge cup and the pivoting area of the hinge arm of the furniture hinge, and that the blocking element is fixed in a recess in the cover in such a way that the handle of the locking element on the inside and the locking bar on the outside of the hinge cup.
  • the linear damper is arranged outside of the hinge cup and is therefore protected.
  • the interior of the hinge cup is free and therefore easy to clean.
  • the blocking element can be operated from the interior of the hinge cup and, outside the hinge cup, engages in the travel of the linear damper or of the blocking extension connected to the linear damper.
  • the housing has a wall recess facing the locking element, through which the locking bolt is guided into the housing, the moving parts of the linear damper and preferably also the locking element are each protected and arranged in housings so that they can be easily assembled.
  • the locking bar can be introduced through the wall recess into the travel of the damper.
  • a simple assembly of the furniture door, flap or the like on the furniture body can be achieved in that the hinge arm can be attached directly or indirectly to the assembly body via a connection system that can be closed without tools.
  • the hinge arm with the hinge cup can be fastened, for example, to the furniture door, flap or the like, and the mounting body can be fastened to the furniture body.
  • the actual assembly of the furniture door, flap or the like on the furniture body then takes place without tools.
  • a fitter therefore does not have to carry any tools and has both hands free for installing the furniture door, flap or the like. Since he preferably does not need a tool to set the switching position of the blocking element either, the furniture door can be installed and the damping can be set quickly and easily.
  • FIG. 1 1 shows a perspective view of a piece of furniture 2 with a hinged furniture door 5.
  • the furniture door 5 is attached to a frame 4 of a furniture body 3 with two furniture hinges 1 .
  • a mounting body 6 and a hinge body 7 are assigned to each furniture hinge 1 .
  • the hinge body 7 is connected to the furniture door 5 .
  • the mounting body 6 is fixed to the frame 4 .
  • the assembly body 6 is fastened to the end face of the frame 4 .
  • Such a form of assembly is also known as a face frame and is used in particular in the US market.
  • the furniture hinges 1 make it possible to open and close the furniture door 5 in a pivoting movement.
  • a coordinate system 8 indicates three spatial directions, based on the orientation of the piece of furniture 3, namely an x-direction 8.1, a y-direction 8.2 and a z-direction 8.3.
  • the directions in space indicate possible adjustment directions of the furniture door 5, as made possible by the furniture hinges 1.
  • FIG. 2 shows the assembly body 6 for fastening the furniture hinge 1 to the furniture body 3 in an exploded view.
  • a base support 10 and a blocking element 20 are assigned to the assembly body 6 .
  • the base support 10 is used to attach the mounting body 6 to the 1 shown piece of furniture 2. He is preferably designed as a stamped part, in particular as a stamped sheet metal part. A mounting portion 11 of the mounting body 6 is plate-shaped. It has a recess 12 . Facing away from the viewer, the base support 10 forms a mounting surface 10.1 in the region of the mounting section 11.
  • the mounting surface 10.1 is delimited by two inner stops 13 and by two outer stops 14, which face each other in a mounting direction 9.1 represented by an arrow.
  • the stops 13 , 14 are designed as angled brackets which are formed onto the mounting section 11 . They are aligned in such a way that they protrude beyond the mounting surface 10.1.
  • Two side guides 15 are formed on the mounting section 11 of the base support 10 on the side and opposite.
  • the lateral guides 15 are arranged along the edges of the mounting section 11 arranged transversely to the mounting direction 9.1. They are oriented at an angle to the mounting section 11 and pointing away from the mounting surface 10.1. At the ends, the lateral guides 15 are angled in such a way that the closing edges of the lateral guides 15 arranged opposite one another face one another.
  • the side guides 15 thus each form a side section 15.1 and a cover section 15.2 formed thereon, which, together with the mounting section 11, each comprise a guide groove 15.4.
  • the guide grooves 15.4 of opposite side guides 15 face each other. They form a sliding guide 15.3.
  • the sliding guide 15.3 is aligned in the assembly direction 9.1.
  • a holding attachment 16 is fastened to the mounting section 11 via a step 16.1.
  • the retaining projection 16 is formed on the mounting section 11 outside of the area delimited by the stops 13 , 14 .
  • two retaining webs 17 are formed laterally.
  • the holding webs 17 are designed as brackets which are angled in relation to the holding attachment 16 .
  • the holding webs 17 are preferably arranged at an angle of 90° with respect to the holding projection 16 . They are angled in the direction away from the mounting surface 10.1.
  • the surface normals of the holding webs 17 are aligned transversely to the assembly direction 9.1.
  • Each of the holding webs 17 is penetrated by an axle bore 17.1.
  • the axle bores 17.1 of the holding webs 17 arranged opposite are aligned with one another.
  • nub-shaped spring guides 18 are formed on the edge of the holding attachment 16.
  • the blocking element 20 is in the form of a bow. It has a flat actuating section 21 on which laterally angled joint sections 22 are formed.
  • An axle mount 22.1 in the form of a bore is introduced into the joint sections 22 in each case.
  • the axle mounts 22.1 are aligned with one another.
  • the joint sections 22 are aligned in such a way that, when the mounting body 6 is mounted, they are arranged laterally and at a small distance from the holding webs 17 of the base support 10 .
  • the axle mounts 22.1 are then aligned with the Axle bores 17.1 of the holding webs 17 aligned.
  • Covered or partially covered by the actuating section 21 are holding sections 23, as shown in figure 5 are shown, formed on the actuating portion 21.
  • the holding sections 23 are arranged on the edge of the actuating section 21 which is oriented counter to the assembly direction 9.1. They are in the form of tabs and are angled in relation to the actuating section 21 in the direction of the holding attachment 16 . It is also conceivable to provide a continuous holding section 23 along the edge of the actuating section 21 .
  • the actuating section 21 forms an actuating side 21.1 on its side facing away from the holding attachment 16 and a spring contact surface 21.2 on the opposite side. To improve the feel, the actuating side 21.1 has a structured surface.
  • An axis 26 is also assigned to the assembly body 6 .
  • the axle 26 has stops in the form of widenings 26.1 at the ends. At least one of the widenings 26.1 is only attached during the assembly of the assembly body 6.
  • the springs 25 are assigned to the blocking element 20 .
  • the springs 25 each have a winding area 25.1, which is connected to a spring clip 25.3.
  • the ends of the springs 25 are designed as legs 25.2.
  • the legs 25.2 of the springs 25 are aligned in the direction of the spring contact surface 21.1 of the blocking element 20 and the spring clip 25.3 in the direction of the surface of the holding attachment 16.
  • the blocking element 20 is pivotally connected to the base support 10 of the mounting body 6 by means of the axis 26 .
  • the joint sections 22 are arranged laterally outside of the holding webs 17 and the axis 26 is through the now aligned axis receptacles 22.1 and axis bores 17.1, as shown in 2 are shown plugged.
  • the flared portions 26.1 are molded onto the axle 26, so that it cannot be unintentionally pushed out of the axle bores 17.1 and axle mounts 22.1.
  • the axis 26 thus forms an axis of rotation for the blocking element 20.
  • the springs 25 are between the in 2 shown spring contact surface 21.2 of the actuating portion 21 and the opposite side of the retaining lug 16 of the base support 10 is used biased. They thus press the blocking element 20 into its closed position. In this closed position, the blocking element 20 lies with its in 2 holding sections 23 shown on the holding projection 16.
  • figure 5 shows the in 3 mounting body 6 shown in a lateral sectional view.
  • the course of the cut follows the in 3 cutting line marked V.
  • the base support 10 has the mounting surface 10.1, with which the mounting body 6 bears against the furniture body 3 when the furniture hinge 1 is mounted.
  • the inner and outer stops 13, 14 are formed onto the mounting section 11 and protrude beyond the mounting surface 10.1.
  • the mounting surface 10.1 is thus delimited by the stops 13,14.
  • the assembly body 6 can thus be applied with the assembly surface 10.1 to the frame 4 of a furniture body 3 and aligned with the aid of at least two of the stops 13, 14 in relation thereto.
  • the side guides 15 are formed on the side of the base support 10 .
  • the guide grooves 15.4 are aligned in the direction of the mounting section 11.
  • the blocking element 20 is pivotably connected to the holding webs 17 of the base support 10 by means of the axis 26 .
  • the springs 25 are each attached to the axle 26 with their winding area 25.1.
  • the legs 25.2 of the springs 25 rest against the spring contact surface 21.2 of the blocking element 20.
  • the spring clip 25.3 rests against the holding attachment 16. They are guided laterally through the spring guides 18 formed onto the holding attachment 16 .
  • the springs 25 are preloaded.
  • a torque directed counter to an actuation direction 9.2 indicated by an arrow is transmitted to the blocking element 20.
  • the blocking element 20 is thereby adjusted about its axis of rotation formed by the axis 26 and held in the closed position shown. In this closed position, the holding sections 23 are in contact with the holding projection 16 .
  • the gradation 16.1 ensures that the axis of rotation formed by the axis 26 is arranged as an extension of the sliding guide 15.3.
  • FIG. 6 shows an exploded view of a hinge body 7 with a hinge cup 30 for fastening the furniture hinge 1 to a furniture door 5, flap or the like.
  • a hinge arm 40 and, in the present case, an intermediate part 80 and a connecting element 50 are also assigned to the hinge body 7 .
  • the hinge cup 30 can be embedded in a hole in the furniture door 5 and screwed to the furniture door 5, flap or the like with screws which are guided through side flanges 33 formed laterally on the hinge cup 30.
  • the side flanges 33 are penetrated by mounting holes 33.1.
  • a centering area 31 forms a recess which extends into a mounting area 34 (see Fig 9 ) of the hinge cup 30 passes.
  • the hinge cup 30 is closed off by a cover 37 in the assembly area 34 towards the furniture door 5 .
  • locking recesses are made in the form of openings.
  • Latching elements 73 are latched in the latching recesses.
  • the locking elements 73 are part of an in 11 shown housing 70 for receiving a linear damper 60.
  • the linear damper 60 is thus arranged outside of the hinge cup 30 below the cover 37 of the assembly area 34.
  • the cover 37 has an indentation 37.1 along which the linear damper 60 is arranged.
  • a section of the linear damper 60 is inserted into the centering area 31 through an opening 35 .
  • a movably mounted cylinder 61 of the linear damper 100 is introduced into the centering area 31 .
  • the cylinder 61 has a bevel 62 at the end.
  • a blocking element 100 is inserted into a recess in the cover 37 .
  • the linear damper 60 can be blocked in a retracted position with the aid of the blocking element 100 , so that the bevel 62 is not guided into the centering area 31 .
  • a second spring 38 is also arranged outside of the hinge cup 30 . It is guided through the opening 35 into the centering area 31 with its free ends 38.2.
  • the second spring 38 designed as a torsion spring has a winding 38.3 and a second spring clip 38.1.
  • the centering area 31 is formed by pot side walls 31.2, a rounded section 31.4 and a pot bottom 31.1.
  • Joint receptacles 31.3 in the form of bores are let into the opposite pot side walls 31.2.
  • a hinge pin 39 with stop sections 39.1 at the ends is assigned to the hinge mounts 31.3.
  • a stop section 39.1 is only formed on the hinge pin 39 when the hinge body 7 is assembled.
  • the hinge arm 40 has an articulated lever 43 .
  • a bolt receptacle 41 is formed onto the articulated lever 43, as is shown in more detail in FIG 9 is shown.
  • the bolt receptacle 41 is designed as a cylindrically bent end area of the articulated lever 43 .
  • two guide curves 42 are arranged on the articulated lever 43 on opposite sides.
  • the articulated lever 43 is connected in one piece to a fastening section 44 of the hinge arm 40 . It is also conceivable to form the articulated lever 43 and the fastening section 44 separately and to connect them to one another, for example with the aid of fastening means.
  • the fastening section 44 is preferably designed as a stamped part. It has side areas 44.2 that are angled laterally toward the connecting element 50. These form guide surfaces aligned in the direction of the longitudinal extent of the hinge arm 40 41.1 off. A threaded receptacle 45 and a recess 46 are introduced into the fastening section 44 .
  • An attachment piece 44.3 is formed onto the fastening section 44 via a gradation. The plane of the extension piece 44.3 is offset in the direction of the intermediate part 80 with respect to the plane of the fastening section 44.
  • the extension 44.3 is broken through by an X-eccentric guide 47 in the form of a slot.
  • the intermediate part 80 is arranged between the hinge arm 40 and the connecting element 50 and is aligned with the hinge arm 40 and the connecting element 50 for assembly.
  • the intermediate part 80 has a planar contact section 81 on which a likewise planar extension 82 is formed.
  • the plane of the projection 82 is offset in relation to the plane of the contact section 81 in the direction of the hinge arm 40 .
  • the extension 82 is arranged opposite the extension piece 44.3 of the hinge arm 40.
  • the extension 82 is connected to the contact section 81 by means of three webs 81.2 aligned towards the hinge arm 40. Between the webs 81.2, the contact section 81 has an extension in the form of guide tabs 81.1.
  • An X-eccentric bearing 83 in the form of a bore is introduced into the projection 82 in alignment with the X-eccentric guide 47 .
  • a Y-eccentric guide 84 in the form of an elongated hole and a through-opening 86 are formed in the contact section 81.
  • a Y guide cam 89 is attached to the abutment portion 81 opposite the Y eccentric guide 84 .
  • the Y-guide cam 89 is passed through the abutment section 81 and rises above the surface of the abutment section 81 in the direction of the connecting element 50. Lateral brackets are attached to the abutment section 81.
  • the side tabs 85 are angled relative to the contact section 81 and aligned in the direction of the hinge arm 40 .
  • a fastening web 87 is formed on the contact section 81 opposite the shoulder 82 .
  • the fastening web 87 rises in the direction of the hinge arm 40 above the surface of the abutment section 81. Its upper surface is arranged at the level of the shoulder 82 of the intermediate part 80.
  • a set screw receptacle 88 in the form of a slot is worked into the surface of the fastening web 87, starting from its outer edge.
  • the set screw receptacle 88 is arranged opposite the threaded receptacle 45 of the hinge arm 40 .
  • the connecting element 50 has a flat base body 51 .
  • Two outer retaining tabs 55 are formed on the base body 51 in the assembly direction 9.1.
  • the outer retaining tabs 55 are bent out of the plane of the base body 51 in the direction of the hinge arm 40 in such a way that they each encompass an outer retaining groove 55.1 that is open counter to the assembly direction 9.1.
  • Inner retaining tabs 54 are formed on the edge of the base body 51 opposite the outer retaining tabs 55 .
  • the inner retaining tabs 54 are formed as mirror images of the outer retaining tabs 55, so that one inner retaining groove 54.1 encompassed by the inner retaining tabs 54 is aligned in the direction of the opposite outer retaining groove 55.1 of the outer retaining tabs 55.
  • the retaining tabs 54, 55 thus form a linear guide oriented transversely to the assembly direction 9.1.
  • the intermediate part 80 can be inserted into the inner holding grooves 54.1 with its edge oriented counter to the assembly direction 9.1 and with its edges of the guide tabs 81.1 oriented in the assembly direction 9.1 into the outer holding grooves 55.1.
  • the intermediate part 80 can thus be displaced transversely to the assembly direction 9.1 and in the plane of the contact section 81, while it is held in the remaining directions by the retaining tabs 54, 55 and the base body 51 of the connecting element 50.
  • the Y guide cam 89 is guided in a Y guide slot 58 of the connecting element 50 .
  • a guide section 52 is formed on the base body 51 of the connecting element 50 on the opposite side.
  • the guide sections 52 are flat. They are aligned along their longitudinal extent in the assembly direction 9.1.
  • the side edges of the guide sections 52 arranged transversely to the assembly direction 9.1 form guide edges 52.3.
  • an outwardly pointing threading curve 52.1 is formed on the guide sections 52 in each case as an extension of the guide edges 52.3.
  • the latching recesses 52.4 are groove-shaped and are made in the guide sections 52 so that they face one another.
  • a stop section 52.2 is formed on the guide sections 52 in each case. These limit the leading edges 52.3.
  • An opening 53 is made in the base body 51 .
  • the opening 53 is arranged opposite the through-opening 86 of the intermediate part 80 and thus the recess 46 of the hinge arm 40 .
  • a Y eccentric bearing 56 in the form of a bore is introduced into the base body 51 to the side of the opening 53 in the base body 51 .
  • the Y eccentric bearing 56 is arranged in alignment with the Y eccentric guide 84 of the intermediate part 80 .
  • the base body 51 is penetrated by the Y guide slot 58.
  • the Y guide slot 58 is arranged opposite to the Y guide cam 89 of the intermediate part 80 .
  • the hinge body 7 is also assigned an adjusting screw 90 with an adjusting screw tool holder 90.1, a thread 90.2, a groove 90.3 and a termination 90.4.
  • the adjusting screw 90 is designed in such a way that its thread 90.2 can be screwed into the threaded receptacle 45 of the hinge arm 40.
  • the groove 90.3 then engages in the adjusting screw receptacle 88 of the intermediate part 80.
  • the mounted adjusting screw 90 is held axially on the fastening web 87 of the intermediate part 80 by the closure 90.4, which has an enlarged diameter compared to the groove.
  • An X eccentric 91 is assigned to the hinge body 7 .
  • the X eccentric 91 has an X tool holder 91.1, an X guide area 91.2 and an X eccentric cam 91.3.
  • the X eccentric cam 91.3 is arranged outside the central axis of the X guide area 91.2.
  • the X eccentric 91 is aligned with the X eccentric guide 47 of the hinge arm 40 and the X eccentric bearing 83 of the intermediate part 80 . Mounted, the X eccentric cam 91.3 engages in the X eccentric bearing 83.
  • the X guide area 91.2 is guided in the X eccentric guide 47 of the hinge arm 40.
  • the hinge body 7 is also associated with a Y-eccentric 92, which corresponds to the X-eccentric 91 in its structure. It thus has a Y tool holder 92.1, a Y guide area 92.2 and a Y eccentric cam 92.3.
  • the Y eccentric cam 92.3 is arranged outside the central axis of the Y guide area 92.2.
  • the Y eccentric 92 is aligned with the Y eccentric guide 84 of the intermediate part 80 and the Y eccentric bearing 56 of the connecting element 50 . Mounted, the Y eccentric cam 92.3 engages in the Y eccentric bearing 56.
  • the Y guide area 92.2 is guided in the Y eccentric guide 84 of the intermediate part 80.
  • FIG. 7 shows the in 6 shown, assembled hinge body 7 in a plan view.
  • In 8 is the in 7 shown hinge body 7 shown in a perspective view, while 9 the in 7 shown hinge body 7 shows in a lateral sectional view.
  • the incision runs along an in 7 line of intersection marked IX.
  • the articulated lever 43 is guided into the centering area 31 of the hinge cup 30 and fixed there in an articulated manner.
  • the in 6 shown pivot pin 39 guided through the joint receptacles 31.3 of the pot side walls 31.2 of the centering area 31 and the bolt receptacle 41 of the articulated lever 43 and axially fixed by end stop sections 39.1, as is the case in particular 8 can be seen.
  • the free ends 38.2 of the second spring 38 rest on the guide curves 42 on the articulated lever 43 and transmit a spring force to them.
  • the guide curves 42 are designed in such a way that the second spring 38 supports an opening movement from a certain opening angle of the furniture hinge 1 and a closing movement of the furniture hinge 1 and thus the connected furniture door 5, flap or the like from a certain closing angle of the furniture hinge 1.
  • the linear damper 60 is inserted with the slope 62 of its cylinder 61 in the centering area 31 and thus in the travel of the articulated lever 43 .
  • the linear damper 60 is supported with a piston 63 on the housing 70 .
  • the articulated lever 43 rests against the bevel 62 of the linear damper 60 and compresses it.
  • the movement of the linear damper 60 can by means of in the Figures 7 and 8 Blocking element 100 shown are blocked in its pushed-in position. As a result, a non-damped furniture hinge 1 is obtained.
  • the attachment portion 44 of the hinge arm 40 is connected to the intermediate part 80, as shown in more detail in FIG 9 is shown.
  • the intermediate part 80 is in turn connected to the connecting element 50 .
  • the intermediate part 80 is mounted on the connecting element 50 so as to be linearly adjustable transversely to the assembly direction 9.1, as shown in FIG figure 6 is described.
  • the adjusting screw 90 is screwed with its thread 90.2 into the threaded receptacle 45 of the hinge arm 40. It is mounted with its groove 90.3 in the adjusting screw mount 88.
  • the intermediate part 80 is held axially by the adjusting screw 90 as a result of the termination 90.4, which has an enlarged diameter compared to the groove 90.3.
  • the X eccentric 91 is guided with its X guide area 91.2 laterally in the X eccentric guide 47 of the hinge arm 40 and is inserted into the X eccentric bearing 83 of the intermediate part 80 with its eccentrically arranged X eccentric cam 91.3.
  • the Y eccentric 92 is guided correspondingly and not shown in section with its Y guide area 92.2 laterally in the Y eccentric guide 84 of the intermediate part 80 and with its Y eccentric cam 92.3 in the in 6 shown Y-eccentric bearing 56 of the connecting element 50 inserted.
  • the Y-tool holder 92.1 is accessible through the recess 46 in the fastening section 44 of the hinge arm 40, as shown in particular in FIG 7 can be seen.
  • the adjusting screw 90 and the two eccentrics 91, 92 are used to align the mounted furniture door 5 on the furniture body 3.
  • the distance between the fastening section 44 of the hinge arm 40 and the intermediate part 80 can be changed by means of the adjusting screw 90 and the furniture door 5 can thus be moved along the z -Axis 8.3, like this one in 1 is shown to be adjusted.
  • the X-eccentric 91 enables the fitted furniture door 5 to be adjusted along the in 1 shown x-axis 8.1.
  • the hinge arm 40 is displaced in the x-direction 8.1 in relation to the intermediate part 80.
  • the intermediate part 80 is guided laterally by the guide surfaces 44.1 of the side regions 44.2 of the fastening section 44 of the hinge arm 40, on which the side straps 85 and the extension 82 of the intermediate part 80 rest (see 6 ).
  • the Y eccentric 92 allows the furniture door 5 to be aligned along the 1 shown y-axis 8.2.
  • the intermediate part 80 and thus the hinge arm 40 connected to the intermediate part blocked in the y-direction is linearly adjusted relative to the connecting element 50 along the y-axis 8.2.
  • the intermediate part moves guided by the retaining grooves 54.1, 55.1 formed by the retaining tabs 54, 55, as are also shown in 6 are shown. Additional guidance is achieved by the Y guide cam 89 of the intermediate part 80, which is linearly guided in the Y guide slot 58 of the connecting element 50.
  • the guide sections 52 of the base body 51 of the connecting element 50 with their latching recesses 52.4 form the foremost area of the hinge body 7 in the assembly direction 9.1.
  • the second spring 38 is arranged outside of the hinge cup 30 .
  • She is as in 7 shown, guided with their free ends 38.2 through the opening 35 in the centering area 31 of the hinge cup 30 and there to the guide curves 42 of the hinge arm 40.
  • the linear damper 60 is also arranged with its housing 70 below the mounting area 34 of the hinge cup 30 and guided through the opening 35 into the centering area 31 .
  • the bearing of the second spring 38 on the housing 70 is shown.
  • the housing 70 forms a spring receptacle 72 towards its housing bottom 71 on the side facing away from the hinge arm 40 .
  • the second spring clip 38.1 of the second spring 38 is held in the spring receptacle 72.
  • the mounting area 34 also forms such a depression.
  • the pot depth in the mounting area 34 is less than in the centering area 41.
  • the mounting area 34 is closed by a cover 37.
  • the linear damper 60 is attached to the cover 37 of the mounting portion 34 from the outside.
  • the linear damper 60 is mounted in the housing 70 .
  • the housing 70 is by means of the in 6 latching elements 73 shown are attached to the cover 37 of the mounting area 34 .
  • the housing base 71 is preferably arranged in the same plane as the pot base 31.1 of the centering area 31.
  • a blocking lug 67 is attached on the cylinder 61 of the linear damper 60.
  • the blocking projection 67 is molded onto the cylinder 61 . Facing away from the housing base 71, the blocking shoulder 67 has a shoulder slope 67.1.
  • the bevel 67.1 is inclined in the direction of movement of the cylinder 61 when the linear damper 60 is pushed together. Pointing in the direction of movement of the cylinder 61 when the linear damper 60 is pushed apart, the blocking projection 67 forms a blocking mating surface 67.2.
  • FIG. 10 shows a perspective view of the hinge body 7 and the mounting body 6 in a mutually aligned position. This is in deviation from the representations in the Figures 2 to 5 the actuating section 21 of the blocking element 20 extends beyond the legs 25.2 of the springs 25 and is angled, so that the springs 25 are covered towards a user.
  • the hinge body 7 is swung open and is held in this position by the second spring 38 .
  • the guide sections 52 of the connecting element 50 are aligned with their locking recesses 52.4 in the direction of the blocking element 20 of the assembly body 6. They protrude laterally beyond the attachment section 44 of the hinge arm 40 .
  • the hinge body 7 can thus be pushed with its guide sections 52 along the assembly direction 9.1 into the sliding guide 15.3 of the assembly body 6.
  • the sliding guide 15.3 is formed by the guide grooves 15.4, as they are formed by the side guides 15 arranged laterally on the mounting section 11 of the base support 10 of the mounting body 6.
  • the connecting element 50 is pushed into the sliding guide 15.3, the guide edges 52.3 of the guide sections 52 slide along the inner surfaces of the side sections 15.1 of the side guides 15.
  • the hinge body 7 can thus only be adjusted in or against the assembly direction 9.1 when the guide sections 52 are pushed into the sliding guide 15.3.
  • the threading curves 52.1 facilitate the insertion of the guide sections 52 into the guide grooves 15.4.
  • the connecting element 50 is pushed into the sliding guide 15.3 until the front edges of the guide sections 52 touch the in figure 5 shown holding portions 23 of the blocking element 20 abut.
  • the hinge body 7 is now held on the mounting body 6 transversely to the mounting direction 9.1.
  • the blocking element 20 is lifted from its in figure 10 shown closed position along the direction of actuation 9.2 in an open position.
  • the blocking element 20 pivots against the spring force introduced by the two springs 25 about the axis of rotation formed by the axis 26 .
  • the connecting element 50 is moved further in the assembly direction 9.1, the locking recess 52.4 reaches the area of the in figure 5 shown holding sections 23.
  • the blocking element 20 is now moved back into its closed position by the springs 25, as a result of which the holding sections 23 engage in the locking recesses 52.4.
  • the hinge body 7 is also in or against the assembly direction 9.1 blocked.
  • the stop sections 52.2 attached laterally to the guide sections 52 lie against the front side guides 15.1 of the sliding guide 15.3.
  • an exact alignment of the hinge body 7 with respect to the assembly body 6 is achieved in the assembly position.
  • 11 shows a perspective view of the assembled furniture hinge 1.
  • 12 is that in 11 Shown furniture hinge 1 shown in a plan view.
  • 13 shows that in 11 Shown furniture hinge 1 in a lateral sectional view.
  • the course of the cut is in 12 marked and labeled XIII.
  • the connecting element 50 as a component connected to the hinge arm 40, is pushed into the sliding guide 15.3 of the mounting body 6 up to its mounting position.
  • the connecting element 50 is held by the lateral guides 15 transversely to the assembly direction 9.1.
  • the stop sections 52.2 rest against the lateral guides 15 facing away from the blocking element 20.
  • the connecting element 50 is blocked by the engagement of the holding sections 23 of the blocking element 20 in the latching recesses 52.4 of the guide sections 52 of the connecting element 50, as can be seen in particular from the sectional view in figure 13 can be removed.
  • the blocking element 20 is held in its closed position by the two springs 25 .
  • the hinge body 7 is thus fixed to the mounting body 6 .
  • the blocking element 20 can be moved into its open position by pressing on the actuating side 21.1 of its actuating section 21 against the spring force introduced by the springs 25.
  • the blocking element 20 is pivoted about the axis 26 in accordance with the direction of actuation 9.2.
  • the holding sections 23 of the blocking element 20 are thus disengaged from the latching recesses 52.4 of the connecting element 50.
  • the connecting element 50 can now be pulled out of the sliding guide 15.3 in the opposite direction to the assembly direction 9.1.
  • the mounting body 6 is attached to the frame 4 of the piece of furniture 2 .
  • the mounting body 6 rests on the frame 4 with its mounting surface 10 . 1 .
  • the outer stop 14 rests on the edge of the frame 4 .
  • the assembly body 6 is fastened to the frame 4 by means of a screw connection.
  • a screw 19 is guided through the recess 12 of the base support 10 .
  • the assembly body 6 and the hinge body 7 are present separately. Both are pre-assembled. First, the assembly body 6 is aligned with the outer stop 14 on the frame 4 . The assembly body 6 is then screwed onto the frame 4 . The hinge cup 30 is inserted into the hole in the furniture door 5, aligned and screwed to the furniture door 5. If several furniture hinges 1 are provided, they are mounted accordingly. The furniture hinge or hinges 1 are folded into their open position. The furniture door 5 is then held against the opening of the furniture body 2 and aligned in such a way that the guide sections 52 of the respective connecting element 50 are aligned with the sliding guide 15.2 arranged on the assembly body 6. The furniture door 5 is now pushed in the direction of the furniture body 2 . The guide sections 52 thread into the sliding guide 15.3. Due to the threading curves 52.1, the guide sections 52 can be easily and simultaneously threaded into the sliding guides 15.2, even if there are several furniture hinges 1 provided on the furniture door 5.
  • the guide sections 52 are pushed into the sliding guide 15.3 until they abut against the holding sections 23 of the blocking element 20.
  • the connecting element 50 is now held in the sliding guide 15.3 transversely to the assembly direction 9.1.
  • the sliding guide 15.3 is aligned in such a way that the connecting element 50 does not slide out of the sliding guide 15.3 due to the force of weight. A fitter can thus let go of the furniture door 5 when the connecting element 50 is partially pushed in without it falling down.
  • the connecting element 50 is pushed further into the sliding guide 15.3 in the assembly direction 9.1. This can be done, for example, by a appropriate pressure on the furniture door 5 done. In this case, the blocking element 20 is moved into its open position by a corresponding pressure on the actuating section.
  • the connecting element 50 can now be pushed into the sliding guide 15.3 until the final assembly position is reached.
  • the stop sections 52.2 of the guide sections 52 rest against the front side guides 15 of the base support 10.
  • the latching recesses 52.4 on the guide sections 52 of the connecting element 50 are arranged in the region of the holding section 23 of the blocking element 20.
  • the blocking element 20 is therefore by the springs 25 in its in 14 rotated closed position shown and brought the holding portions 23 into engagement with the locking recesses of the connecting element 50 52.4.
  • movement of the hinge body 7 in or counter to the assembly direction 9.1 is blocked.
  • the blocking element 20 is manually adjusted to its open position.
  • the connecting element 50 can now be pulled out of its assembly position counter to the assembly direction 9.1.
  • the connecting element 50 is still held by the sliding guide 15.3 transversely to the assembly direction 9.1.
  • a fitter can thus successively release several furniture hinges 1 provided on the furniture door 5 without having to hold the weight of the furniture door 5 at the same time. If all connecting elements 50 of the provided furniture hinges 1 are pulled out of their assembly position, the furniture door 5 can be pulled off the furniture body 3 .
  • FIG. 15 shows the locking element 100 in a perspective exploded view.
  • a bearing pin 101, a locking element housing 102 and a locking element insert 103 are assigned to the locking element 100.
  • the blocking element housing 102 has blocking element housing side walls 102.3 arranged opposite one another.
  • the blocking element housing side walls 103.2 are connected to one another at the end with a blocking element housing outer wall 102.4 and on the opposite side with a blocking element housing inner wall 102.5 which is arranged largely concealed in the selected view.
  • a peripheral contact flange 102.1 is placed, which protrudes outwards beyond the respective walls. This is opposite to the contact flange 102.1 Blocking element housing 102 completed by a concealed blocking element housing floor.
  • a locking switching position 102.7 on the contact flange 102.1 is identified, in this case by a 0.
  • a damping switching position 102.8 is marked on the contact flange 102.1, in the present case by a 1, opposite and aligned towards the inner wall 102.5 of the locking element housing.
  • latching projections 102.6 are attached to the outside.
  • a locking device 102.9 which is in the present case web-shaped, is integrally formed on the blocking element housing side walls 102.3.
  • the blocking element housing side walls 102.3 are further broken through by mutually aligned bearing pin guides 102.2.
  • the locking element insert 103 is formed from a cylindrical rotating body 103.1, on the outer circumference of which a handle 103.5 and a locking bolt 103.3 are formed at an angle to one another.
  • the rotary body 103.1 has a bearing bolt receptacle 103.2 which breaks through it along its central longitudinal axis.
  • the locking bolt 103.3 has a blocking surface 103.6. The surface normal of the blocking surface 103.6 is aligned in the direction of the longitudinal extent of the bearing bolt receptacle 103.2. Opposite to the blocking surface 103.6, the locking bar 103.3 is bevelled at the end by a run-on bevel 103.4.
  • the length of the cylindrical rotating body 103.1 is chosen such that the rotating body 103.1 can be arranged with little play between the two blocking element housing side walls 102.3 and the bearing bolt receptacle 103.2 can be aligned flush with the bearing bolt guides 102.2 of the blocking element housing 102.
  • the cylindrical bearing pin 101 can thus be inserted through the bearing pin guides 102.2 and the bearing pin receptacle 103.2.
  • the locking element insert 103 is thus rotatably mounted in the locking element housing 102 .
  • the handle 103.5 projects out of the blocking element housing 102 in the area of the contact flange 102.1.
  • the locking element insert 103 can be rotated about its axis of rotation formed by the bearing pin 101 with the aid of the handle 103.5.
  • the locking bar 103.3 also oscillates about this axis of rotation.
  • the blocking element insert 103 can be set in two switch positions, namely the blocking switch position 102.7 and the damping switch position 102.8. This is achieved when the handle 103.5 is in contact with the contact flange 102.1 in the area of the assigned marking (0 or 1).
  • the blocking element insert 103 is held in the two switching positions by the locking device 103.9. As a result, an unintentional adjustment of the blocking element 100, for example by a user of the piece of furniture, can be avoided.
  • the handle 103.5 is arranged to the side of the axis of rotation on a peripheral track around the axis of rotation. As a result, a lever is formed which enables simple tool-free actuation of the blocking element 100 even with a small-sized handle 103.5. Due to the lateral arrangement of the handle 103.5 in relation to the axis of rotation, no actuating device arranged in the axial direction of the blocking element 100 has to be provided. As a result, the blocking element 100 can be arranged to a large extent outside of the hinge cup 30 and only the handle 103.5 has to be guided into the interior of the hinge cup 30, as is shown in more detail in FIG 17 is shown.
  • FIG. 16 shows a perspective view of a linear damper 60 with a housing 70.
  • the piston 63 is pushed into the cylinder 61 by a force acting axially on the linear damper 60, with the damping effect of the linear damper 60 occurring counter to the acting force.
  • the piston 63 or, as provided in the present installation situation the cylinder 61 can be moved.
  • the cylinder 61 is designed in the shape of a cylinder approximately on one side and is closed off on the opposite side by a flat cylinder base 64 .
  • a first lower guide bar 65.1 and spaced therefrom a first upper guide bar 66.1 are formed laterally on the cylinder 61.
  • a second lower guide bar 65.2 and a second upper guide bar 66.2 are arranged on the cylinder 61 opposite the first lower guide bar 65.1 and the first upper guide bar 66.1.
  • the guide webs 65.1, 65.2, 66.1, 66.2 are aligned along the longitudinal extension of the cylinder 61.
  • the cylinder 61 has the bevel 62 .
  • the blocking shoulder 67 is formed on the cylinder 61 on the side of the first lower guide web 65.1.
  • the blocking projection 67 is present web-shaped. Its longitudinal extension is aligned transversely to the longitudinal extension of the linear damper 60 .
  • the blocking projection 67 is shaped in such a way that it follows the rounding of the cylindrical outer surface of the cylinder 61 .
  • the blocking projection 67 merges into the first lower guide web 65.1.
  • the blocking shoulder 67 has the shoulder slope 67.1.
  • the blocking projection 67 is designed to be bevelled at the end in the direction of the housing 70 .
  • the blocking shoulder 67 forms the counter-blocking surface 67.2. This is thus arranged facing away from the housing 70 .
  • the surface normal of the blocking mating surface 67.2 is aligned in the direction of movement of the linear damper 60.
  • the housing 70 has a housing base 71 on which two opposite housing side walls 75, 76 are formed. At the ends, the two housing side walls 75, 76 are connected to one another by a housing rear wall 74.
  • the housing rear wall 74 ends at a distance from the housing base 71.
  • the spring receptacle 72 is formed between the housing rear wall 74 and the housing base 71 in the form of a gap.
  • the housing 70 is open through a housing opening 77 opposite the housing rear wall 74 and facing the linear damper 60 .
  • the latching elements 73 are integrally formed on the housing side walls 75, 76, facing away from the housing base 71.
  • the first housing side wall 75 is broken through by a wall recess 75.1.
  • the furniture hinge 1 When the furniture hinge 1 is mounted, it is used to guide the locking bar 103.3 of the in figure 15 The locking element 100 shown.
  • the linear damper 60 can be pushed into the housing 70 through the housing opening 77 . It then rests with its piston 63 on the housing rear wall 74, as a result of which the piston is fixed in its position.
  • the cylinder 61 When the furniture hinge 1 is mounted, the cylinder 61 is mounted on the housing base 71 so that it can be adjusted linearly.
  • the housing base 71 has base webs 71.1 running in the direction of movement of the cylinder 61, on which the cylinder 61 slides.
  • the housing side walls 75, 76 are set back laterally to the housing opening 77, starting from the housing base 71, towards their opposite side.
  • the bevel 62 of the linear damper 60 is free, while the cylinder base 64 is at least largely supported by the housing base 71 even when the linear damper 60 is pushed out.
  • FIG. 17 shows a top view of the hinge pot 30 of the furniture hinge 1, as it already has to Figures 6 to 9 was described.
  • the blocking element 100 is inserted into a recess in the cover 37 of the hinge cup 30 on the side of the linear damper 60 .
  • the blocking element 100 lies with its in figure 15 shown contact flange 102.1 on the edge of the recess on the cover 37.
  • latching projections 102.6 on the blocking element housing side walls 102.3 the blocking element housing 102 is fixed in the recess of the cover 37.
  • the locking element 100 is oriented so that its axis of rotation as to figure 15 was described, is aligned in the direction of movement of the linear damper 60 .
  • the axis of rotation is thus aligned in the direction of the longitudinal extent of the linear damper 60 or in the direction of the damping effect of the linear damper 60 .
  • the blocking element 100 is placed in its blocking switching position 102.7.
  • the handle 103.5 is thus pushed in the direction of the area of the contact flange 102.1 marked with a 0. through the in figure 15 shown latching device 102.9, the locking element 100 is secured against accidental adjustment by a user.
  • the handle 103.5 can be adjusted in a pivoting movement about the axis of rotation of the blocking element 100 from the blocking switch position 102.7 to the damping switch position 102.8.
  • the restraining forces applied by the latching device 102.9 are thereby overcome.
  • the handle 103.5 rests against the contact flange 102.1 on the side marked with a 1. It is locked in this position again by the locking device 102.9.
  • the latching device 102.9 thus ensures that the blocking switch position 102.7 and the damping switch position 102.8 are each set exactly and that an inadvertent adjustment of the blocking element 100 by a user is prevented.
  • the blocking element insert 103 is rotated about the axis of rotation of the blocking element 100.
  • the in figure 15 shown locking bar 103.3 pivoted about the axis of rotation.
  • the locking bar 103.3 can be brought into engagement with the blocking projection 67 of the linear damper 60 in the locking switch position 102.7 and disengaged in the damping switch position 102.8.
  • By aligning the axis of rotation of the locking element 100 in the direction of movement of the linear damper 60 is doing the locking bar 103.3 on a transverse to Direction of movement of the linear damper running circular path in the control range of the blocking projection 67 of the linear damper 60 or pivoted.
  • the axis of rotation is preferably aligned in such a way that the circular path on which the locking bar 103.3 is moved is aligned perpendicular to the direction of movement of the linear damper 60.
  • the blocking element 100 is adjusted to its blocking switching position 102.7.
  • the locking bar 103.3 is thus pivoted into the adjustment range of the blocking projection 67.
  • the linear damper 60 is in its pushed-in position.
  • the locking bar 103.3 rests with its blocking surface 103.6 on the blocking mating surface 67.2 of the blocking projection 67.
  • the linear damper 60 is thus not moved into its pushed-out position by correspondingly acting restoring forces when the furniture hinge 1 is open. This means that the bevel 62 of the cylinder 61 is not in the centering area 31 of the hinge cup 30 and thus in the travel of the in figure 14 shown articulated lever 43 is inserted.
  • the blocking element 100 can only be adjusted when the furniture door 5, flap or the like is open.
  • the cylinder 61 is initially arranged in its extended position.
  • the locking bolt 103.3 is pivoted into its adjustment path on the side of the blocking shoulder 67 opposite the blocking mating surface 67.2.
  • the starting bevel 103.4 of the locking bolt 103.3 and the approach bevel 67.1 of the blocking shoulder 67 are thus opposed.
  • the cylinder 61 of the linear damper 60 is pushed into its pushed-in position.
  • the blocking shoulder 67 slides past the locking bar 103.3 along the shoulder slope 67.1 and the starting slope 103.4.
  • the locking bar 103.3 is designed to be correspondingly elastic for this purpose, so that it can be displaced by the required distance as a result of the blocking shoulder 67 sliding past. Upon reaching the inserted end position of the cylinder 61 is adjusted elastic locking bar 103.3 then returns to its tension-free position, so that the blocking surface 103.6 and the blocking counter-surface 67.2 face one another.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Hinges (AREA)
  • Springs (AREA)
  • Clamps And Clips (AREA)
EP17711378.4A 2017-02-13 2017-02-13 Möbelscharnier mit einem sperrelement für einen lineardämpfer Active EP3580420B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/TR2017/000027 WO2018147817A1 (de) 2017-02-13 2017-02-13 Möbelscharnier mit einem sperrelement für einen lineardämpfer

Publications (2)

Publication Number Publication Date
EP3580420A1 EP3580420A1 (de) 2019-12-18
EP3580420B1 true EP3580420B1 (de) 2023-01-11

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Family Applications (1)

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EP17711378.4A Active EP3580420B1 (de) 2017-02-13 2017-02-13 Möbelscharnier mit einem sperrelement für einen lineardämpfer

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US (1) US11401745B2 (pl)
EP (1) EP3580420B1 (pl)
CN (1) CN108425579B (pl)
CA (1) CA3064147A1 (pl)
ES (1) ES2939970T3 (pl)
MX (1) MX2019009587A (pl)
PL (1) PL3580420T3 (pl)
WO (1) WO2018147817A1 (pl)

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TR201818261A2 (tr) * 2018-11-30 2020-06-22 Samet Kalip Ve Madeni Esya Sanayi Ve Ticaret Anonim Sirketi Sönümleme Ayarlı Bir Mobilya Menteşesi
CN109519068B (zh) * 2018-12-29 2024-06-04 广东东泰五金精密制造有限公司 一种家具悬挂折叠门的位置调节结构
AT521965B1 (de) * 2019-02-15 2020-07-15 Blum Gmbh Julius Möbelscharnier
CN110029901A (zh) * 2019-04-12 2019-07-19 广东炬森五金精密制造有限公司 滑块式缓冲铰链
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CA3064147A1 (en) 2018-08-16
CN108425579B (zh) 2020-02-21
ES2939970T3 (es) 2023-04-28
US11401745B2 (en) 2022-08-02
WO2018147817A1 (de) 2018-08-16
MX2019009587A (es) 2019-12-18
EP3580420A1 (de) 2019-12-18
CN108425579A (zh) 2018-08-21
US20210277698A1 (en) 2021-09-09
PL3580420T3 (pl) 2023-05-02

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