WO2011069509A2 - Arrangement for height adjustment preferably for kitchen tables with base cabinets - Google Patents

Arrangement for height adjustment preferably for kitchen tables with base cabinets Download PDF

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Publication number
WO2011069509A2
WO2011069509A2 PCT/DK2010/000172 DK2010000172W WO2011069509A2 WO 2011069509 A2 WO2011069509 A2 WO 2011069509A2 DK 2010000172 W DK2010000172 W DK 2010000172W WO 2011069509 A2 WO2011069509 A2 WO 2011069509A2
Authority
WO
WIPO (PCT)
Prior art keywords
spindle
box
secured
arrangement according
bottom plate
Prior art date
Application number
PCT/DK2010/000172
Other languages
French (fr)
Other versions
WO2011069509A3 (en
Inventor
Michael Lindekilde RANDLØV
Torben Basse
Henrik Winther
Jeppe Christian Bastholm
Martin Riis
Henning Kristensen
Jens Jørgen NIELSEN
Norbert Klinke
Bent Jensen
Original Assignee
Linak A/S
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.)
Filing date
Publication date
Application filed by Linak A/S filed Critical Linak A/S
Priority to US13/514,216 priority Critical patent/US20120280604A1/en
Priority to AU2010330456A priority patent/AU2010330456A1/en
Priority to RU2012127476/12A priority patent/RU2012127476A/en
Priority to EP10803034A priority patent/EP2509465A2/en
Priority to CN201080055630.9A priority patent/CN102651985B/en
Publication of WO2011069509A2 publication Critical patent/WO2011069509A2/en
Publication of WO2011069509A3 publication Critical patent/WO2011069509A3/en
Priority to US15/787,345 priority patent/US20180049543A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B9/00Tables with tops of variable height
    • A47B9/04Tables with tops of variable height with vertical spindle
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B51/00Cabinets with means for moving compartments up and down

Definitions

  • the present invention relates to an arrangement for height-adjustment, preferably for base cabinets located on a floor, and where the upper side of the cabinets are furnished with a table top, particularly kitchen tables with base cabinets.
  • This particularly relates to kitchen elements where a standard size of a base cabinet is: depth 50-60 cm and height 60-70 cm having varying widths from 30 cm to 120 cm, with leaps of 10 cm, and where the standard widths are 40 cm, 50 cm and 60 cm.
  • Height-adjustable work tables where the height of the table top can be adjusted to the height of different users have been known in special purpose constructions for many years e.g. for emergency dispatch centers, which are manned around the clock.
  • the development of sitting/standing tables was commenced towards the end of the 1980s/the beginning of the 1990s. This development was due to ergonomic reasons, so that the user could assume changing work positions.
  • a number of different lifting columns designed as table legs have been developed for these sitting/standing tables, just as different linear actuators for these lifting columns have been developed. In some structures the linear actuator is an incorporated part of the lifting column and in other structures it is a separate unit which may be built into different lifting columns.
  • a lifting column consists of a telescopic guide and the linear actuator, which typically consists of a spindle unit driven by a low-voltage DC-motor.
  • the linear actuator typically consists of a spindle unit driven by a low-voltage DC-motor.
  • the lifting columns were designed with two members, a fixed and an extendable member.
  • lifting columns with three members were developed - one fixed and two extendable members.
  • the development was, however, also marked by a desire for cheaper products in order to gain a foothold on the market .
  • O2004/100632 Al Linak A/S.
  • a typical example of a desk having a lifting column at each side is disclosed in EP 1079511 Al, Linak A/S.
  • the purpose of the invention is to provide a solution for height-adjustment of kitchen tables, where the table top rests on a row of base cabinets. It is required that the production and assembly costs are relatively inexpensive, just as the technical solution should be simple and preferably so simple that it is suitable for a do-it- yourself project, i.e. without actual preceding expertise in the field.
  • the arrangement for height-adjustment is a separate element and already known elements such as base cabinets may be used, i.e. simply by placing them on top of the supporting surface of the platform.
  • the size of the platforms may be adapted accordingly.
  • the required number of platforms can then merely be placed together, where after the base cabinets are placed on top of them.
  • the advantage is also that the existing production machinery for manufacturing cabinet and drawer elements can remain intact, while the manufacturing of the platforms is transferred to a separate production, which may be optimized with a view thereto .
  • Claims 5-6 provide different solutions all based on the idea of using a wedging for the height-adjustment .
  • the wedge surfaces sliding against each other may be fashioned to have a low friction, e.g. by means of a surface treatment or surface coating, alternatively rolls may be used on the wedge surfaces. Again, this is a simple and uncomplicated construction.
  • Claims 6-7 provide solutions based on box-shaped profiles, which may be designed such that they can be located in pairs under each side of a base cabinet, alternatively at the front and rear edge. The latter solution further has the advantage that access under the cabinet from the front is prevented.
  • Claims 8 and 10 provide solutions with levers, where the solution in claim 8 may be moved by means of a known actuator. It is an obvious advantage that a linear actuator is a well-proven component which is simple and dependable.
  • the solution in claim 10 is based on spindle technology and has the advantage that the levers may be arranged so that transversal forces eliminate each other.
  • Claim 9 provides an entirely different solution based on a rope pull, where the rope may be a wire, band or the like. Again, a simple and functional solution, which likewise may be constructed relatively inexpensive.
  • the invention further relates to a cabinet with a bottom plate, being prepared for mounting of or which is mounted with at least one arrangement according to one of the claims 1-14.
  • This could e.g. be holes or dogs or brackets which should cooperate with the arrangement .
  • Fig. 1 shows a schematic view of an embodiment with a single spindle
  • Fig. 2 shows a schematic view of the spindle in Fig.
  • Fig. 3 shows a cross section through a corner of an embodiment with hollow and solid spindle
  • Fig. 4 shows a top or bottom plate in Fig. 3 seen from above,
  • Fig. 5 shows a schematic view of an embodiment with a linear actuator shown without top plate
  • Fig. 6 shows the embodiment in Fig. 5 seen from the side
  • Fig. 7 shows a section in the bottom plate, which exposes an adjusting screw
  • Fig. 8 shows an embodiment based on box-shaped profiles and chain drive shown directly from the side and where it has been retracted to its minimum height
  • Fig. 9 shows the same as Fig. 8, but extended to its full height
  • Fig. 10 shows the same as Fig. 8, but seen directly from above,
  • Fig. 11 shows an embodiment based on box-shaped profiles and drive with a drive shaft and angle gear shown directly from the side, and where it has been retracted to its minimum height
  • Fig. 12 shows the same as Fig. 11, but extended to its full height
  • Fig. 13 shows the same as Fig. 11 but seen directly from above,
  • Fig. 14 shows a principle sketch of an embodiment based on wedge elements shown in fully retracted position
  • Fig. 15 shows the same as Fig. 14, but in fully extended height
  • Fig. 16 shows the same as Fig. 15, but shown from the opposite end
  • Fig. 17 shows an embodiment based on levers shown directly from the side
  • Fig. 18 shows the same as Fig. 14, but seen directly from above,
  • Fig. 19 shows a schematic principle view of an embodiment based on wound bands
  • Fig. 20 shows the same as Fig. 19 but where the embodiment has three telescopic members
  • Fig. 21 shows an embodiment based on a solid and a hollow spindle and also a tube with internal thread
  • Fig. 22 shows an embodiment as in Fig. 21 shown with chain drive
  • Fig. 23 shows the same as Fig. 22, but seen directly from above, and
  • Fig. 24 shows a section of the drive motor and where the end stop switches are shown.
  • Figs. 1-2 of the drawing shows an embodiment comprising a square box (shown transparent) with a bottom plate 1, having a spindle 2 mounted on a thrust bearing 3 in each corner. The lower end of the spindle 2 is furnished with a toothed pulley 4. All four spindles 2 are driven by a central motor 5 through a toothed belt 6.
  • the motor 5 and the transmission, here a worm gear and driving wheel for the toothed belt 6, is mounted on a mutual plate, which can pivot about an axle pin, said plate being spring loaded with a coil spring at the end such that the toothed belt is held tight.
  • a tube piece 7 extends over the spindles 2 and to the lower end of said tube piece a spindle nut 8 in mesh with the spindle 2 is secured.
  • the four tube pieces 7 are displaced synchronously up and down depending on the direction of rotation of the motor.
  • the toothed belt 6 and corresponding toothed pulley 4 may be replaced by a chain and chain wheel .
  • the spindles may naturally also be driven by a separate electric motor each.
  • a frame 9 is secured.
  • shut-offs may be secured to the sides of the frame 9, which are visible after the final assembly, said shut-offs sliding on the outside of the base plate frame 9, such that the bottom plate is covered.
  • the upper side of the four tube pieces 7 constitutes the supporting surface. At the corners of the frame 9 guides for the tube pieces 7 on the spindle nuts may be arranged.
  • Figs. 3-4 of the drawing show an embodiment with a larger lifting height comprising an identical bottom and top plate 10,11, which may be adjusted to a horizontal position by means of adjusting screws 12 in the bottom plate 10.
  • a hollow spindle 13 with external thread is secured in each corner of the bottom plate.
  • a solid spindle 14 with external thread which may be accommodated in the hollow spindle 13 is secured to the top plate 11.
  • a tubular spindle nut 15 having a hole with internal thread for the solid spindle 14 at the top.
  • the two spindles 13,14 have opposite thread.
  • the spindle nut 15 at each corner of the bottom plate 10 is in a rotatable manner embedded in an intermediate frame 16 on which a motor unit is mounted.
  • the motor unit drives an endless chain 17 running around a chain wheel 18 on each of the spindle nuts 15.
  • the spindle nut 15 will climb up the hollow spindle 13 while the solid spindle 14 will be extended out of the tubular spindle nut 15.
  • the spindles 13,14 will be retracted again.
  • the chain 17 may be replaced by a toothed belt and toothed pulley.
  • a V-belt and discs for V-belt are also a possibility.
  • a separate motor for each spindle nut 15 or a motor for spindle nuts in pairs e.g. a motor for driving the two spindle nuts in one side and another motor for driving the two spindle nuts in the other side.
  • the top plate 11 constitutes the supporting surface. It is realized that a telescopic extendable/retractable frame or cover plate may be arranged between the bottom plate 10 and the top plate 11 at least on the sides which are visible after the final assembly.
  • FIG. 5-7 of the drawing which comprises a bottom plate 20 on which two parallel positioned shafts 23,24 are mounted at a mutual distance by means of two rails 21,22.
  • An arm 25,26,27,28 is secured to each end of these shafts 23,24.
  • the upper end of the arms 25-28 is connected in pairs to a rod 29,30, having a length corresponding to the distance between the two shafts 23,24.
  • a rotary arm 31 is fitted to one of the shafts 23.
  • the rear end of a linear actuator 32 is supported on one of the shafts 24 while the front end of its displaceable piston-like inner tube 33 is connected to the arm 31 on the other shaft 23.
  • the linear actuator may e.g. be of the type disclosed in WO 02/29284 Al Linak A/S.
  • a small telescopic control unit 34 At each corner of the bottom plate 20 is mounted a small telescopic control unit 34 on top of which is mounted a carrying plate 35 constituting the supporting surface.
  • a wheel in mesh with the underside of the supporting surface 35 At the upper end of the lifting arms 25-28 is mounted a wheel in mesh with the underside of the supporting surface 35. It is understood that the bottom plate 20 may be equipped with adjusting screws 40 for adjusting the arrangement to a horizontal position.
  • the telescopic control units 34 are here illustrated as three inside each other telescopic tube pieces. As mentioned earlier this embodiment may also comprise a telescopic frame or rails. It is noted that the shafts 23,24 may be designed in a manner which allows them to be coupled with adjacent arrangements, e.g. tubular coupling pieces in extension of the shaft 23 as shown in the drawing.
  • the embodiment shown in Figs. 8-10 of the drawing comprises an upper box-shaped profile 50 which is open at the top and a lower box-shaped profile 51 which is open at the bottom. Between these two box-shaped profiles 50,51 is a chassis element 52 likewise designed as a box- shaped profile.
  • the upper box- shaped profile 50 When the two triangular plate elements 56,57 are pulled away from each other, the upper box- shaped profile 50 will be raised out of the chassis element 52 while this synchronously is raised out of the lower box-shaped profile 51.
  • the upper box-shaped profile 50 When the two triangular plate elements 56,57 are pulled towards each other the upper box-shaped profile 50 is lowered over the chassis element 52 while this is lowered into the lower box-shaped profile 51.
  • the triangular shape of the plate elements 56,57 causes the elements to be completely pulled together, even though they are displaced in the same plane.
  • One of these arrangements may be arranged e.g. under a cabinet but it is also possible to place an arrangement at each side.
  • a telescopic frame or cover plate as shut-off, preventing access into the hollow of the platform. This both prevents dirt from building up in the platform and also prevents personal injuries or squeezing e.g. as a result of a child extending a hand or foot into the platform.
  • FIGs. 11-13 also comprises two box-shaped profiles 70,71 and a third box- shaped profile 72 is located in between these. These three box-shaped profiles 70-73 may in a telescopic manner be displaced in and out of each other.
  • the drive mechanism is constituted by a spindle unit comprising a solid spindle 73 in mesh with a hollow spindle 74, which again is in mesh with a tubular spindle nut 75, which on the exterior at one end has a bevel wheel 76.
  • Such a spindle unit is located at each end of the box- shaped profiles 70-72 and is connected to a through-going drive shaft 77, which at each end is equipped with a bevel wheel 78 in mesh with the bevel wheel 76 of the spindle nut 75.
  • the middle of the drive shaft 77 is furnished with a worm wheel 72 in mesh with a worm 79 on a reversible electric motor 800.
  • FIG. 14-16 of the drawing A somewhat similar construction is shown in Figs. 14-16 of the drawing which comprises two wedge elements 80,81 located next to each other. Between these two wedge elements 80,81 is located an axially displaceable wedge element 82, which with a surface rests on one on the wedge elements 80, while the other wedge element 81 rests on a surface of the displaceable wedge element 82 facing upwards.
  • the axially displaceable wedge element 82 is displaced axially it is raised from the lower wedge element 80 while it simultaneously urges the upper wedge element 81 upwards.
  • the axially displaceable wedge element 82 is moved in the other direction the upper wedge element 81 will be lowered while the displaceable element 82 slides down the lower wedge element 80.
  • the axially displaceable wedge element 82 may be moved by means of a chain as stated above or a spindle with a rotating spindle nut may be used causing the spindle to be displaced axially. Otherwise, the same principles as the above embodiment in Figs. 8-10 apply.
  • FIGs. 17-18 which comprise similar but mirrored arrangements arranged in pairs comprising a lever 90, mounted about a horizontal shaft 91 in a rotatable manner. At a distance along the lever 90 there is a spindle 92 driven by a reversible electric motor 93. The spindle 92 is in mesh with a spindle nut 94 mounted on the lever 90.
  • the spindle nut 94 is mounted on the lever 90 in a tiltable and displaceable manner causing it to adjust itself to the angular position of the lever 90. If the direction of rotation of the motor 90 is reversed, the levers are lowered. All four spindles 92 may be driven synchronous through a toothed belt or chain 95 by a centrally located motor 93. Like the other embodiments each spindle may be driven by a separate motor or in pairs .
  • the spindle nut 94 is mounted on the lever in a tiltable and displaceable manner and the spindle 92 is fixed to the bottom plate 95.
  • the spindle 92 may be mounted on the bottom plate 95 in a tiltable manner and the spindle nut 94 fixedly mounted on the lever 90.
  • the mutual rotation of the spindle/spindle nut is relatively small, which means that the spindle could be mounted on a yielding surface, which allows the rotation.
  • Rolls 96 or circular arched supports may be mounted on the free ends of the levers 90, which allow a more or less frictionless movement against the bottom of the object 97, such as a kitchen base cabinet placed on top of it.
  • FIGs. 19-20 an entirely different embodiment is shown comprising two inside each other telescopically displaceable box-shaped elements 100,101.
  • One of the box- shaped elements 100 has a bottom plate 102, while the other box-shaped element 101 does not necessarily have to be furnished with a top plate.
  • the drive unit comprises a shaft 103 driven by the motor.
  • a steel band 104 is secured to each end of the shaft, which over rolls 105,106 runs over the edge of the lower box-shaped element 100 and is secured to the underside of the subsequent box-shaped element 101.
  • a further development of the embodiment discloses three telescopically displaceable box-shaped elements 100,101,107 located inside each other, where the upper box-shaped element 107 is secured to the intermediate box-shaped element 101 by means of a steel band 180 over a roll 109 on the intermediate box- shaped element 101.
  • the steel band 104 is wound on the shaft 103 the intermediate 101 and upper box- shaped element 107 will be telescopically displaced upwards.
  • the steel band 104 is slackened and the weight of and the weight on the box-shaped elements 107,101 will urge these downwards.
  • a steel band 109 is mounted in a corresponding manner on the motor driven shaft 103 which is secured to the opposite sides of the box- shaped elements. It is further noted that these steel bands 109 are guided the opposite way around the shaft 103 compared to the steel bands 104.
  • the construction may also be fitted with other types of bands e.g. plastic bands.
  • two motor-driven shafts for operating each side of the box- shaped elements may of course be provided. It is realized that the box-shaped elements does not necessarily have to be equipped with sides all the way around, it would be sufficient with two sides located opposite each other. These would of course have to be strengthened in the cross direction e.g. with supports on the bottom plate 102 and mutual guides.
  • Fig. 21 shows a variation of the embodiment in Fig. 3.
  • a solid spindle 200 with right-hand thread is here mounted on the bottom plate via a plate element 201.
  • This solid spindle 200 is furnished with a hollow spindle 202 with internal thread.
  • the exterior of the hollow spindle 201 is designed with left-hand thread.
  • On the outside of the hollow spindle 202 is a tube 203 with internal thread.
  • a mounting plate 204 constituting the supporting surface for the object, such as a base cabinet, which should be carried by the tube 203.
  • the hollow spindle 202 is equipped with a toothed disc or chain wheel 205 at the bottom.
  • All four spindle units are driven by an endless toothed belt or chain driven by a reversible electric motor.
  • the motor runs in one direction, the hollow spindle 202 will climb up the solid spindle 200 while the tube 203 is extended out of the hollow spindle 202.
  • Figs. 22-24 of the drawing show an embodiment based on a spindle unit as shown in Fig. 21.
  • the hollow spindle 300 is here driven by an endless chain 301 driven by a reversible low voltage motor 302, which drives a chain wheel 303 through a worm gear 304.
  • a reversible low voltage motor 302 which drives a chain wheel 303 through a worm gear 304.
  • this is situated in a round-going profile rail 305, functioning as chain housing to which the motor unit 302- 304 further is secured.
  • the motor 302 In the outermost position the motor 302 is stopped by end stop switches 306,307, where one switch 306 hits the bottom plate 308, while the other switch 307 hits a dog 309 on a rod 310 protruding from the bottom plate.
  • On top of the spindle units is mounted a top plate 311 constituting the supporting surface for an object placed thereon.
  • the invention thus provides a solution, at which a table top mounted on base cabinets in an uncomplicated manner may be adjusted in height.
  • the solution may be used where a table top is mounted on a continuous row of base cabinets as well as an interrupted row of base cabinets, e.g. where the table top is mounted on a base cabinet at each end.
  • the platform according to the invention may be adapted to the individual base cabinets but may also be constructed to carry two or more base cabinets located next to each other. It is understood that two platforms may also be used for one cabinet e.g. a platform in each side with a width of 20 cm and depth of 45 cm may be used for a 60 cm wide cabinet. Such a platform may immediately be used for a slim cabinet e.g. with a width of 30 cm. In such a platform there is only one lifting arrangement at each end.
  • the invention is not only intended for kitchens but may be used in other connections.
  • An obvious example is in connection with laboratory and clinical equipment, where the cabinet elements by and large correspond to the kitchen cabinet elements .
  • the invention may be used for much more than height-adjustment of floor-mounted cabinet and drawer elements.
  • the platform may e.g. be located on a table for height-adjustment of an object on the table. This is particularly relevant in connection with laboratory and clinical equipment.

Landscapes

  • Tables And Desks Characterized By Structural Shape (AREA)
  • Transmission Devices (AREA)
  • Legs For Furniture In General (AREA)

Abstract

An arrangement for height -adjustment, preferably for kitchen tables with base cabinets is designed as a platform comprising a bottom plate (10), on which is mounted a lifting arrangement (13-18) with a carrying surface (11) for an object positioned thereon.

Description

Arrangement for height adjustment preferably for kitchen tables with base cabinets
The present invention relates to an arrangement for height-adjustment, preferably for base cabinets located on a floor, and where the upper side of the cabinets are furnished with a table top, particularly kitchen tables with base cabinets. This particularly relates to kitchen elements where a standard size of a base cabinet is: depth 50-60 cm and height 60-70 cm having varying widths from 30 cm to 120 cm, with leaps of 10 cm, and where the standard widths are 40 cm, 50 cm and 60 cm.
Height-adjustable work tables where the height of the table top can be adjusted to the height of different users have been known in special purpose constructions for many years e.g. for emergency dispatch centers, which are manned around the clock. The development of sitting/standing tables was commenced towards the end of the 1980s/the beginning of the 1990s. This development was due to ergonomic reasons, so that the user could assume changing work positions. A number of different lifting columns designed as table legs have been developed for these sitting/standing tables, just as different linear actuators for these lifting columns have been developed. In some structures the linear actuator is an incorporated part of the lifting column and in other structures it is a separate unit which may be built into different lifting columns. Basically, a lifting column consists of a telescopic guide and the linear actuator, which typically consists of a spindle unit driven by a low-voltage DC-motor. To begin with the lifting columns were designed with two members, a fixed and an extendable member. However, due to increased requirements of the customers for the variable heights, lifting columns with three members were developed - one fixed and two extendable members. The development was, however, also marked by a desire for cheaper products in order to gain a foothold on the market . As an example of a typical lifting column for a work table and an actuator for a lifting column, reference is made to O2004/100632 Al, Linak A/S. A typical example of a desk having a lifting column at each side is disclosed in EP 1079511 Al, Linak A/S.
For that reason the desire for height-adjustment has become more pronounced and has spread to other fields, where it has been attempted to use the same type of lifting columns for sitting/standing work tables. However, it has not always been possible to use these or it has, in terms of construction and design, proven to be difficult to fit the lifting columns to a given structure.
One of the fields, where it is desired to be able to perform a height-adjustment is kitchen tables, where the table top rests on a row of base cabinets. This is a relatively complicated task where it is not immediately possible to use the lifting columns intended for height- adjustable work tables. This is among other things due to the fact that a kitchen table is relatively long and heavy. It is particularly challenging in case of cooking islands, which often are twice as wide since they comprise two rows of cabinets placed back to back. As examples reference is made to US 6,213,575 and US 2003/0227240 Al both Maytag Corp., disclosing cooking islands constructed around specially constructed height- adjustable frames. It should also be mentioned that JP20031591221 Yamaha Living Tec. discloses a kitchen table, where the table top can be raised from the lower frame .
The purpose of the invention is to provide a solution for height-adjustment of kitchen tables, where the table top rests on a row of base cabinets. It is required that the production and assembly costs are relatively inexpensive, just as the technical solution should be simple and preferably so simple that it is suitable for a do-it- yourself project, i.e. without actual preceding expertise in the field.
This is achieved according to the invention by constructing the arrangement for height-adjustment as a platform comprising a bottom plate on which a lifting arrangement having a supporting surface for an object is mounted. Thus, the height-adjustment is a separate element and already known elements such as base cabinets may be used, i.e. simply by placing them on top of the supporting surface of the platform. For kitchen, utility room, bath room and dressing room elements, having a basically standardized size, the size of the platforms may be adapted accordingly. For a kitchen table with base cabinets the required number of platforms can then merely be placed together, where after the base cabinets are placed on top of them. The advantage is also that the existing production machinery for manufacturing cabinet and drawer elements can remain intact, while the manufacturing of the platforms is transferred to a separate production, which may be optimized with a view thereto .
In the dependent claims more different embodiments for the height-adjustment arrangement have been provided. The claims 2-4 disclose embodiments based on spindles, which give the advantage of being reliable and long-lasting and with a solid spindle or a solid spindle combined with a hollow spindle a wide span in the adjustment height as well as a cost optimizing is achieved.
Claims 5-6 provide different solutions all based on the idea of using a wedging for the height-adjustment . The wedge surfaces sliding against each other may be fashioned to have a low friction, e.g. by means of a surface treatment or surface coating, alternatively rolls may be used on the wedge surfaces. Again, this is a simple and uncomplicated construction. Claims 6-7 provide solutions based on box-shaped profiles, which may be designed such that they can be located in pairs under each side of a base cabinet, alternatively at the front and rear edge. The latter solution further has the advantage that access under the cabinet from the front is prevented.
Claims 8 and 10 provide solutions with levers, where the solution in claim 8 may be moved by means of a known actuator. It is an obvious advantage that a linear actuator is a well-proven component which is simple and dependable. The solution in claim 10 is based on spindle technology and has the advantage that the levers may be arranged so that transversal forces eliminate each other. Claim 9 provides an entirely different solution based on a rope pull, where the rope may be a wire, band or the like. Again, a simple and functional solution, which likewise may be constructed relatively inexpensive.
The invention further relates to a cabinet with a bottom plate, being prepared for mounting of or which is mounted with at least one arrangement according to one of the claims 1-14. This could e.g. be holes or dogs or brackets which should cooperate with the arrangement .
Various embodiments of the invention will be explained below with reference to the accompanying drawing, in which:
Fig. 1 shows a schematic view of an embodiment with a single spindle,
Fig. 2 shows a schematic view of the spindle in Fig.
1,
Fig. 3 shows a cross section through a corner of an embodiment with hollow and solid spindle,
Fig. 4 shows a top or bottom plate in Fig. 3 seen from above,
Fig. 5 shows a schematic view of an embodiment with a linear actuator shown without top plate,
Fig. 6 shows the embodiment in Fig. 5 seen from the side,
Fig. 7 shows a section in the bottom plate, which exposes an adjusting screw,
Fig. 8 shows an embodiment based on box-shaped profiles and chain drive shown directly from the side and where it has been retracted to its minimum height , Fig. 9 shows the same as Fig. 8, but extended to its full height,
Fig. 10 shows the same as Fig. 8, but seen directly from above,
Fig. 11 shows an embodiment based on box-shaped profiles and drive with a drive shaft and angle gear shown directly from the side, and where it has been retracted to its minimum height,
Fig. 12 shows the same as Fig. 11, but extended to its full height,
Fig. 13 shows the same as Fig. 11 but seen directly from above,
Fig. 14 shows a principle sketch of an embodiment based on wedge elements shown in fully retracted position,
Fig. 15 shows the same as Fig. 14, but in fully extended height,
Fig. 16 shows the same as Fig. 15, but shown from the opposite end,
Fig. 17 shows an embodiment based on levers shown directly from the side,
Fig. 18 shows the same as Fig. 14, but seen directly from above,
Fig. 19 shows a schematic principle view of an embodiment based on wound bands,
Fig. 20 shows the same as Fig. 19 but where the embodiment has three telescopic members,
Fig. 21 shows an embodiment based on a solid and a hollow spindle and also a tube with internal thread, Fig. 22 shows an embodiment as in Fig. 21 shown with chain drive,
Fig. 23 shows the same as Fig. 22, but seen directly from above, and
Fig. 24 shows a section of the drive motor and where the end stop switches are shown. Figs. 1-2 of the drawing shows an embodiment comprising a square box (shown transparent) with a bottom plate 1, having a spindle 2 mounted on a thrust bearing 3 in each corner. The lower end of the spindle 2 is furnished with a toothed pulley 4. All four spindles 2 are driven by a central motor 5 through a toothed belt 6. The motor 5 and the transmission, here a worm gear and driving wheel for the toothed belt 6, is mounted on a mutual plate, which can pivot about an axle pin, said plate being spring loaded with a coil spring at the end such that the toothed belt is held tight. A tube piece 7 extends over the spindles 2 and to the lower end of said tube piece a spindle nut 8 in mesh with the spindle 2 is secured. As the spindles 2 rotate synchronously due to the toothed belt drive, the four tube pieces 7 are displaced synchronously up and down depending on the direction of rotation of the motor. It is realized that the toothed belt 6 and corresponding toothed pulley 4 may be replaced by a chain and chain wheel . The spindles may naturally also be driven by a separate electric motor each. Along the circumference of the bottom plate 1 a frame 9 is secured. Under a base cabinet mounted on top of the tube pieces 7 shut-offs may be secured to the sides of the frame 9, which are visible after the final assembly, said shut-offs sliding on the outside of the base plate frame 9, such that the bottom plate is covered. The upper side of the four tube pieces 7 constitutes the supporting surface. At the corners of the frame 9 guides for the tube pieces 7 on the spindle nuts may be arranged.
Figs. 3-4 of the drawing show an embodiment with a larger lifting height comprising an identical bottom and top plate 10,11, which may be adjusted to a horizontal position by means of adjusting screws 12 in the bottom plate 10. In each corner of the bottom plate a hollow spindle 13 with external thread is secured. A solid spindle 14 with external thread which may be accommodated in the hollow spindle 13 is secured to the top plate 11. Between these two spindles is a tubular spindle nut 15 having a hole with internal thread for the solid spindle 14 at the top. At the bottom of the spindle nut 15 is a hole likewise with internal thread for the hollow spindle 13. The two spindles 13,14 have opposite thread. The spindle nut 15 at each corner of the bottom plate 10 is in a rotatable manner embedded in an intermediate frame 16 on which a motor unit is mounted. The motor unit drives an endless chain 17 running around a chain wheel 18 on each of the spindle nuts 15. When the motor rotates in one direction the spindle nut 15 will climb up the hollow spindle 13 while the solid spindle 14 will be extended out of the tubular spindle nut 15. When the direction of rotation of the motor is changed the spindles 13,14 will be retracted again. It is realized that the chain 17 may be replaced by a toothed belt and toothed pulley. A V-belt and discs for V-belt are also a possibility. Further, it is possible to use a separate motor for each spindle nut 15 or a motor for spindle nuts in pairs, e.g. a motor for driving the two spindle nuts in one side and another motor for driving the two spindle nuts in the other side. The top plate 11 constitutes the supporting surface. It is realized that a telescopic extendable/retractable frame or cover plate may be arranged between the bottom plate 10 and the top plate 11 at least on the sides which are visible after the final assembly.
Another solution is shown in Figs. 5-7 of the drawing which comprises a bottom plate 20 on which two parallel positioned shafts 23,24 are mounted at a mutual distance by means of two rails 21,22. An arm 25,26,27,28 is secured to each end of these shafts 23,24. The upper end of the arms 25-28 is connected in pairs to a rod 29,30, having a length corresponding to the distance between the two shafts 23,24. A rotary arm 31 is fitted to one of the shafts 23. The rear end of a linear actuator 32 is supported on one of the shafts 24 while the front end of its displaceable piston-like inner tube 33 is connected to the arm 31 on the other shaft 23. When the inner tube 33 of the actuator is displaced outwards, the arms 25-28 of the shafts 23,24 rotate or extend upwards. When the inner tube 33 of the actuator is retracted the arms 25-28 of the shafts 23,24 are lowered. The linear actuator may e.g. be of the type disclosed in WO 02/29284 Al Linak A/S. At each corner of the bottom plate 20 is mounted a small telescopic control unit 34 on top of which is mounted a carrying plate 35 constituting the supporting surface. At the upper end of the lifting arms 25-28 is mounted a wheel in mesh with the underside of the supporting surface 35. It is understood that the bottom plate 20 may be equipped with adjusting screws 40 for adjusting the arrangement to a horizontal position. These adjusting screws 40 may be integrated in the lower end of the telescopic control units 34 at the corners. The telescopic control units 34 are here illustrated as three inside each other telescopic tube pieces. As mentioned earlier this embodiment may also comprise a telescopic frame or rails. It is noted that the shafts 23,24 may be designed in a manner which allows them to be coupled with adjacent arrangements, e.g. tubular coupling pieces in extension of the shaft 23 as shown in the drawing. The embodiment shown in Figs. 8-10 of the drawing comprises an upper box-shaped profile 50 which is open at the top and a lower box-shaped profile 51 which is open at the bottom. Between these two box-shaped profiles 50,51 is a chassis element 52 likewise designed as a box- shaped profile. In this chassis element 52 two chain wheels 53,54 are embedded, over which an endless chain 55 runs. A right-angled, triangular plate element 56,57 is secured to each chain distance between the two chain wheels 53,54, where an axle pin 58-61 is secured at each corner of the vertical side facing away from the chain wheels, said axle pin fitting into two inclined tracks 62-65 in the two box-shaped profiles 50,51. The axle pins are guided with the ends in horizontal tracks in the chassis element 52. The chain 55 is driven by a reversible electric motor 66 which over a worm gear 67 drives one of the chain wheels 54. When the two triangular plate elements 56,57 are pulled away from each other, the upper box- shaped profile 50 will be raised out of the chassis element 52 while this synchronously is raised out of the lower box-shaped profile 51. When the two triangular plate elements 56,57 are pulled towards each other the upper box-shaped profile 50 is lowered over the chassis element 52 while this is lowered into the lower box-shaped profile 51. The triangular shape of the plate elements 56,57 causes the elements to be completely pulled together, even though they are displaced in the same plane. One of these arrangements may be arranged e.g. under a cabinet but it is also possible to place an arrangement at each side. It is noted that it is also possible to arrange a telescopic frame or cover plate as shut-off, preventing access into the hollow of the platform. This both prevents dirt from building up in the platform and also prevents personal injuries or squeezing e.g. as a result of a child extending a hand or foot into the platform.
A similar solution is shown in Figs. 11-13 which also comprises two box-shaped profiles 70,71 and a third box- shaped profile 72 is located in between these. These three box-shaped profiles 70-73 may in a telescopic manner be displaced in and out of each other. The drive mechanism is constituted by a spindle unit comprising a solid spindle 73 in mesh with a hollow spindle 74, which again is in mesh with a tubular spindle nut 75, which on the exterior at one end has a bevel wheel 76. Such a spindle unit is located at each end of the box- shaped profiles 70-72 and is connected to a through-going drive shaft 77, which at each end is equipped with a bevel wheel 78 in mesh with the bevel wheel 76 of the spindle nut 75. The middle of the drive shaft 77 is furnished with a worm wheel 72 in mesh with a worm 79 on a reversible electric motor 800. When the motor shaft moves in one direction the box- shaped profiles 70-72 are synchronously raised out of each other and when the direction of rotation is reversed the box- shaped profiles 70-72 are retracted into each other.
A somewhat similar construction is shown in Figs. 14-16 of the drawing which comprises two wedge elements 80,81 located next to each other. Between these two wedge elements 80,81 is located an axially displaceable wedge element 82, which with a surface rests on one on the wedge elements 80, while the other wedge element 81 rests on a surface of the displaceable wedge element 82 facing upwards. When the axially displaceable wedge element 82 is displaced axially it is raised from the lower wedge element 80 while it simultaneously urges the upper wedge element 81 upwards. When the axially displaceable wedge element 82 is moved in the other direction the upper wedge element 81 will be lowered while the displaceable element 82 slides down the lower wedge element 80. The axially displaceable wedge element 82 may be moved by means of a chain as stated above or a spindle with a rotating spindle nut may be used causing the spindle to be displaced axially. Otherwise, the same principles as the above embodiment in Figs. 8-10 apply. Another embodiment is shown in Figs. 17-18 which comprise similar but mirrored arrangements arranged in pairs comprising a lever 90, mounted about a horizontal shaft 91 in a rotatable manner. At a distance along the lever 90 there is a spindle 92 driven by a reversible electric motor 93. The spindle 92 is in mesh with a spindle nut 94 mounted on the lever 90. When the motor 93 is activated the free ends of the four levers are raised due to the spindle nut climbing upwards on the spindle 92. The spindle nut 94 is mounted on the lever 90 in a tiltable and displaceable manner causing it to adjust itself to the angular position of the lever 90. If the direction of rotation of the motor 90 is reversed, the levers are lowered. All four spindles 92 may be driven synchronous through a toothed belt or chain 95 by a centrally located motor 93. Like the other embodiments each spindle may be driven by a separate motor or in pairs . The spindle nut 94 is mounted on the lever in a tiltable and displaceable manner and the spindle 92 is fixed to the bottom plate 95. On the other hand the spindle 92 may be mounted on the bottom plate 95 in a tiltable manner and the spindle nut 94 fixedly mounted on the lever 90. In reality, the mutual rotation of the spindle/spindle nut is relatively small, which means that the spindle could be mounted on a yielding surface, which allows the rotation. Rolls 96 or circular arched supports may be mounted on the free ends of the levers 90, which allow a more or less frictionless movement against the bottom of the object 97, such as a kitchen base cabinet placed on top of it.
In Figs. 19-20 an entirely different embodiment is shown comprising two inside each other telescopically displaceable box-shaped elements 100,101. One of the box- shaped elements 100 has a bottom plate 102, while the other box-shaped element 101 does not necessarily have to be furnished with a top plate. The drive unit comprises a shaft 103 driven by the motor. A steel band 104 is secured to each end of the shaft, which over rolls 105,106 runs over the edge of the lower box-shaped element 100 and is secured to the underside of the subsequent box-shaped element 101. A further development of the embodiment discloses three telescopically displaceable box-shaped elements 100,101,107 located inside each other, where the upper box-shaped element 107 is secured to the intermediate box-shaped element 101 by means of a steel band 180 over a roll 109 on the intermediate box- shaped element 101. When the steel band 104 is wound on the shaft 103 the intermediate 101 and upper box- shaped element 107 will be telescopically displaced upwards. When the direction of rotation of the motor 108 is reversed the steel band 104 is slackened and the weight of and the weight on the box-shaped elements 107,101 will urge these downwards. It is noted that a steel band 109 is mounted in a corresponding manner on the motor driven shaft 103 which is secured to the opposite sides of the box- shaped elements. It is further noted that these steel bands 109 are guided the opposite way around the shaft 103 compared to the steel bands 104. As an alternative to steel bands the construction may also be fitted with other types of bands e.g. plastic bands. Instead of a mutual motor-driven shaft 103 two motor-driven shafts for operating each side of the box- shaped elements may of course be provided. It is realized that the box-shaped elements does not necessarily have to be equipped with sides all the way around, it would be sufficient with two sides located opposite each other. These would of course have to be strengthened in the cross direction e.g. with supports on the bottom plate 102 and mutual guides. For the sake of completeness, Fig. 21 shows a variation of the embodiment in Fig. 3. Unlike Fig. 3, a solid spindle 200 with right-hand thread is here mounted on the bottom plate via a plate element 201. This solid spindle 200 is furnished with a hollow spindle 202 with internal thread. The exterior of the hollow spindle 201 is designed with left-hand thread. On the outside of the hollow spindle 202 is a tube 203 with internal thread. On top of this tube is a mounting plate 204, constituting the supporting surface for the object, such as a base cabinet, which should be carried by the tube 203. The hollow spindle 202 is equipped with a toothed disc or chain wheel 205 at the bottom. All four spindle units are driven by an endless toothed belt or chain driven by a reversible electric motor. When the motor runs in one direction, the hollow spindle 202 will climb up the solid spindle 200 while the tube 203 is extended out of the hollow spindle 202.
Figs. 22-24 of the drawing show an embodiment based on a spindle unit as shown in Fig. 21. The hollow spindle 300 is here driven by an endless chain 301 driven by a reversible low voltage motor 302, which drives a chain wheel 303 through a worm gear 304. For guiding the chain 301 this is situated in a round-going profile rail 305, functioning as chain housing to which the motor unit 302- 304 further is secured. In the outermost position the motor 302 is stopped by end stop switches 306,307, where one switch 306 hits the bottom plate 308, while the other switch 307 hits a dog 309 on a rod 310 protruding from the bottom plate. On top of the spindle units is mounted a top plate 311 constituting the supporting surface for an object placed thereon.
The invention thus provides a solution, at which a table top mounted on base cabinets in an uncomplicated manner may be adjusted in height. The solution may be used where a table top is mounted on a continuous row of base cabinets as well as an interrupted row of base cabinets, e.g. where the table top is mounted on a base cabinet at each end. The platform according to the invention may be adapted to the individual base cabinets but may also be constructed to carry two or more base cabinets located next to each other. It is understood that two platforms may also be used for one cabinet e.g. a platform in each side with a width of 20 cm and depth of 45 cm may be used for a 60 cm wide cabinet. Such a platform may immediately be used for a slim cabinet e.g. with a width of 30 cm. In such a platform there is only one lifting arrangement at each end.
It is noted that the invention is not only intended for kitchens but may be used in other connections. An obvious example is in connection with laboratory and clinical equipment, where the cabinet elements by and large correspond to the kitchen cabinet elements . When studying the invention from an overall point of view it is realized that the invention may be used for much more than height-adjustment of floor-mounted cabinet and drawer elements. The platform may e.g. be located on a table for height-adjustment of an object on the table. This is particularly relevant in connection with laboratory and clinical equipment.

Claims

Patent claims:
1. Arrangement for height-adjustment , preferably for base cabinets located on a floor and where the upper side of the cabinets is furnished with a table top, particularly kitchen tables with base cabinets, c h a r a c t e r i z e d in that the arrangement is designed as a platform comprising a bottom plate, on which is mounted a lifting arrangement with a carrying surface for an object positioned thereon.
2. Arrangement according to claim 1, c h a r a c t e r i z e d in that a spindle unit (2-4 , 7 , 8 ; 13 -15 ; 73- 75 ; 200 , 202 , 203 ) comprises at least one spindle (2 ; 13 , 14 ; 73 , 74,-200, 202) and a spindle nut (8 ; 15 ; 75 ; 203 ) is mounted at each corner of the bottom plate (10) and where an upper end of the spindle unit (2-4, 7, 8 ; 13-15; 73- 75 ; 200 , 202 , 203 ) constitutes the carrying surface and where the spindle units are driven by at least one electric motor ( 5 ; 80 ; 302) .
3. Arrangement according to claim 1, c h a r a c t e r i z e d in that a spindle (2) on a pressure bearing (4) is mounted at each corner of the bottom plate and where the lower end of the spindle is equipped with a toothed disc or chain wheel (4) , a motor (5) which through an endless toothed belt or chain (6) drives the spindles (2) synchronously and where a tube piece (7) extending over the spindles (2), is equipped with a spindle nut (8) at the lower end, and where the upper side of the tube pieces (7) constitutes the supporting surface.
4. Arrangement according to claim 1, c h a r a c t e r i z e d in that a hollow spindle (13) with external thread is secured in each corner of the bottom plate, that a solid spindle (14) with external thread is secured to a top plate (11) , constituting the supporting surface, that a tubular spindle nut (15) is secured between the hollow spindle (13) and the solid spindle (14) , said spindle nut having a hole with internal thread for the solid spindle
(14) at the top and a hole with internal thread for the hollow spindle (13) at the bottom, that the spindle nuts
(15) are mounted in each corner of an intermediate frame (16) , comprising a motor unit, which through an endless chain or toothed belt (17) running over a chain wheel or toothed pulley (18) on each spindle nut (15) , drives these .
5. Arrangement according to claim 1, c h a r a c t e r ! z e d in that it comprises two wedge elements (80,81) located next to each other, that an axially displaceable wedge element (82) is located between these two wedge elements, said displaceable wedge element rests on one on the wedge elements (80) with a surface, while the other wedge element (81) rests on a surface of the displaceable wedge element (82) facing upwards, and where the axially displaceable wedge element (82) may be moved with a chain or belt drive, alternatively a spindle nut unit.
6. Arrangement according to claim 1, c h a r a c t e r ! z e d in that it comprises a box-shaped profile (51) which is open at the top and a box- shaped profile (50) which is open at the bottom and that there between these two box-shaped profiles (50,51) is a chassis element (52), in which two chain wheels (53,54) are embedded, over which an endless chain (55) runs, that a triangular plate element (56,57) is secured to each chain distance between the two chain wheels (53,54), where an axle pin (58-61) is secured at each corner facing away from the chain wheels (53,54), said axle pin fitting into two inclined tracks ( 62 , 63 ; 64 , 65) in the two box-shaped profiles (51;50), and where the chain (55) is driven by a reversible electric motor (66) such that when the two triangular plate elements (56,57) are displaced away from each other, the upper box-shaped profile (50) will be raised and when the two triangular plate elements (56,57) are pulled towards each other the upper box- shaped profile (50) is lowered.
7. Arrangement according to claim 1, c h a r a c t e r i z e d in that it comprises two box- shaped profiles (70,71) and that a third box- shaped profile (72) is located in between such . that these three box- shaped profiles (70-72) in a telescopic manner may be displaced in and out of each other with a solid spindle (73) in mesh with a hollow spindle (74) , which again is in mesh with a tubular spindle nut (75) , which on the exterior has a bevel wheel (76) , that such a spindle unit is located at each end of the box-shaped profiles (70-72) and is connected to a drive shaft (77) driven by a motor, and that each end of the drive shaft (77) is equipped with a bevel wheel (78) in mesh with the bevel wheel (76) of the spindle unit on the spindle nuts (75) .
8. Arrangement according to claim 1, c h a r a c t e r i z e d in that two parallel shafts (23,24) are mounted on the bottom plate (2) at a mutual distance, and that an arm (25-28) is located at each end of these shafts, that the upper end of the arms (25-28) in pairs are connected to a rod (29,30), corresponding to the length between the two shafts (23,24) such that a rod-shaped parallelogram emerges at each side, the upper side of which constituting the supporting surface and that a linear actuator (32) is secured with one end to the bottom plate (20) and with the other end (33) is secured to a rotary arm (31) on one of the shafts (23) for raising and lowering the rod- shaped parallelogram.
9. Arrangement according to claim 1, c h a r a c t e r i z e d in that the lifting arrangement comprises a shaft
(103) driven by a motor (108) mounted on the bottom plate (102) , that a rope such as a wire, belt, plastic band, steel band etc. (104,-109) is secured to each end of the shaft (103), said rope running over rolls (105,106) and up over the upper edge of the lower box-shaped element (100) and is secured to the underside of a subsequent box-shaped element (101) .
10. Arrangement according to claim 1, c h a r a c t e r i z e d in that it comprises two similar but mirrored arrangements comprising a lever (90) , mounted about a horizontal shaft (91) in a rotatable manner, that a spindle (92), driven by a reversible electric motor (93), is secured at a distance along the lever (90) , that the spindle (92) is in mesh with a spindle nut (94) mounted on the lever (90) , that the spindle nut (94) is mounted on the lever in a rotatable and displaceable manner, alternatively that the spindle (92) is embedded in a tiltable manner.
11. Arrangement according to claim 1, c h a r a c t e r i z e d in that the platform is longitudinal, i.e. the length is larger than the width, and where a lifting arrangemnt with a spindle unit, a lever, wedge arrangement or rope drive is located at each end.
12. Arrangement according to claim 1, c h a r a c t e r i z e d in that the platform has a length of approximately 45 cm and a width of approximately 20 cm.
13. . Arrangement according to one or more of the claims 1-12, c h a r a c t e r i z e d in that there on at least the visible sides of the platform in its mounted position is a telescopic cover.
14. Arrangement according to claim 13, c h a r a c t e r i z e d in that one part of the telescopic cover is secured to the bottom plate while another part is secured at the carrying surface such that the cover is extended and retracted concurrently with the movements of the platform.
15. Cabinet with a bottom plate prepared for mounting of or which is mounted with at least one arrangement according to one of the claims 1-14.
PCT/DK2010/000172 2009-12-09 2010-12-09 Arrangement for height adjustment preferably for kitchen tables with base cabinets WO2011069509A2 (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
US13/514,216 US20120280604A1 (en) 2009-12-09 2010-12-09 Arrangement for height adjustment preferably for kitchen tables with base cabinets
AU2010330456A AU2010330456A1 (en) 2009-12-09 2010-12-09 Arrangement for height adjustment preferably for kitchen tables with base cabinets
RU2012127476/12A RU2012127476A (en) 2009-12-09 2010-12-09 DEVICE FOR REGULATION, BASICALLY, KITCHEN TABLES WITH BEARING HOUSES
EP10803034A EP2509465A2 (en) 2009-12-09 2010-12-09 Arrangement for height adjustment preferably for kitchen tables with base cabinets
CN201080055630.9A CN102651985B (en) 2009-12-09 2010-12-09 Be preferred for the arrangement for adjusting height of the dressing table with cabinet
US15/787,345 US20180049543A1 (en) 2009-12-09 2017-10-18 Arrangement for Height Adjustment Preferably for Kitchen Tables with Base Cabinets

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DKPA200901294 2009-12-09
DKPA200901294 2009-12-09

Related Child Applications (2)

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US13/514,216 A-371-Of-International US20120280604A1 (en) 2009-12-09 2010-12-09 Arrangement for height adjustment preferably for kitchen tables with base cabinets
US15/787,345 Continuation US20180049543A1 (en) 2009-12-09 2017-10-18 Arrangement for Height Adjustment Preferably for Kitchen Tables with Base Cabinets

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Publication Number Publication Date
WO2011069509A2 true WO2011069509A2 (en) 2011-06-16
WO2011069509A3 WO2011069509A3 (en) 2011-09-22

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US (2) US20120280604A1 (en)
EP (1) EP2509465A2 (en)
CN (1) CN102651985B (en)
AU (1) AU2010330456A1 (en)
RU (1) RU2012127476A (en)
WO (1) WO2011069509A2 (en)

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WO2002029284A1 (en) 2000-10-03 2002-04-11 Linak A/S A linear actuator
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DE202012003767U1 (en) 2011-04-14 2012-08-31 Linak A/S Height-adjustable work table
WO2012139580A2 (en) 2011-04-14 2012-10-18 Linak A/S Height-adjustable work table
USD748171S1 (en) 2014-11-10 2016-01-26 Linak A/S Linear actuator

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RU2012127476A (en) 2014-01-20
US20180049543A1 (en) 2018-02-22
WO2011069509A3 (en) 2011-09-22
CN102651985A (en) 2012-08-29
AU2010330456A1 (en) 2012-06-07
EP2509465A2 (en) 2012-10-17
US20120280604A1 (en) 2012-11-08
CN102651985B (en) 2015-11-25

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