Source: https://patents.google.com/patent/DE10330176A1/en
Timestamp: 2020-08-06 20:47:17
Document Index: 546765400

Matched Legal Cases: ['art 19', 'art 20', 'art 19', 'art 51', 'art 52', 'art 51', 'art 53', 'art 51', 'art 52', 'art 51', 'arts 19', 'art 20', 'art 54', 'art 19', 'art 54', 'art 19', 'art 19']

DE10330176A1 - Adjustable actuator - Google Patents
DE10330176A1
DE10330176A1 DE2003130176 DE10330176A DE10330176A1 DE 10330176 A1 DE10330176 A1 DE 10330176A1 DE 2003130176 DE2003130176 DE 2003130176 DE 10330176 A DE10330176 A DE 10330176A DE 10330176 A1 DE10330176 A1 DE 10330176A1
DE2003130176
DE10330176B4 (en
SUSPA GMBH, DE
2002-11-02 Priority to DE10251009 priority Critical
2002-11-02 Priority to DE10251009.1 priority
2003-07-04 Application filed by Suspa Holding GmbH filed Critical Suspa Holding GmbH
2003-07-04 Priority to DE2003130176 priority patent/DE10330176B4/en
2003-09-15 Priority claimed from US10/661,546 external-priority patent/US7487709B2/en
2004-05-13 Publication of DE10330176A1 publication Critical patent/DE10330176A1/en
2008-11-27 Publication of DE10330176B4 publication Critical patent/DE10330176B4/en
A length-adjustable actuating element (1) has an energy store (15). A housing (2) and a piston rod (9) which is displaceable in the housing are provided within the actuating element (1). A spindle drive is integrated in the lift mechanism. Furthermore, a drive shaft (24) is connected to the piston rod (9) in a rotary drive connection.
The invention relates to a length-adjustable actuator.
There are numerous use cases where adjustable length actuators needed one end of which is held while the other end is relative is movable to the first end to any moving parts against each other. It may be a trunk lid act in passenger vehicles or heavier lids over cargo holds. Farther lifting table tops or worktops is possible on workbenches.
From the DE 100 18 811 A1 a length adjustment device is known which has two cross members adjustable relative to each other. Between the traverses there is provided a support slide which can be moved relative to these and on which an electric motor is arranged. The motor drives paired spindle drives, two spindle drives each via only one common drive gear. The spindle drives are used to adjust the spacing of the crossbeams.
The invention is based on the object adjustable in length actuator to create that is compact and that with relatively small driving forces or torques.
This object is achieved by the Features of claim 1 solved. By integrating the spindle drive into the energy accumulator created a very compact design. The fact that the lift mechanism the actuation movement in one direction - in usually in the direction of extension of the piston rod - it can be used for production of the rotary drive required drive - usually an electric motor - correspondingly small be formed. in principle is also a manual operation possible.
Claim 2 gives an advantageous Design of the rotary drive connection between the drive shaft and the piston rod again.
Claims 3 and 4 each contain one advantageous embodiment of the transmission. Claims 5 and 6 contain advantageous arrangements of the gears.
In the claims 7 to 9 are advantageous embodiments laid down which is an overload protection grant.
Other features, advantages and details of the Invention emerge from the following description of exemplary embodiments the invention with reference to the drawing. It shows
1 1 shows a first exemplary embodiment of a length-adjustable actuating element in the retracted state in longitudinal section,
2 the actuator after 1 when extended,
3 a second embodiment of an actuating element in the retracted state in longitudinal section,
4 the actuator after 3 when extended,
5 a partial view of an actuator according to 1 and 2 with an overload protection in longitudinal section,
6 a partial view of an actuator according to 3 and 4 with an overload protection in longitudinal section,
7 a motor vehicle with actuators according to the embodiments 1 . 2 . 5 . 6 .
8th a motor vehicle with actuators according to 3 and 4 .
9 3 shows a modified version of the second exemplary embodiment with an electric motor arranged directly on the actuating element,
10 a compared to the embodiment of the 3 and 4 modified actuating element,
11 a further embodiment of a length-adjustable actuating element in the retracted state in longitudinal section and
12 the actuator after 11 when extended.
That in the 1 and 2 shown actuator 1 has a cylindrical housing 2 on the bottom of which by means of a floor 3 closed end a fastener 4 is appropriate. Concentric to the central longitudinal axis 5 of the housing 2 is on the ground 3 a threaded spindle 6 with an external thread 7 appropriate.
On the floor 3 opposite end of the housing 2 this is by means of a piston rod guide 8th sealed sealed. Through this guidance 8th is also concentric to the axis 5 a piston rod 9 out of the housing 2 led out. The interior filled with compressed gas 10 of the housing 2 is by means of a seal 11 sealed to the outside, against the leadership 8th abuts and especially against the piston rod 9 seals. On the inside 10 lying end of the piston rod 9 on this one is opposite the housing 2 unsealed piston 12 axially fixed and non-rotatably attached. The piston 12 has an internal thread 13 on that the outside thread 7 the spindle 6 receives. Furthermore, the piston rod 9 with a cavity 14 provided, which is designed so that it is completely in the housing 2 retracted piston rod 9 (please refer 1 ) the spindle 6 can record. The piston rod 9 could also with the piston 12 be formed in one piece. In this case the internal thread would be 13 in the inner wall of the piston 12 , so in its cavity 14 educated. The unit described so far is therefore a gas spring 15 whose piston rod 9 during an insertion movement or an extension movement relative to the housing 2 rotates.
On the outside of the case 2 located end of the piston rod 9 is a worm gear 16 provided its worm wheel 17 non-rotatable with the piston rod 9 connected is. The gear 16 has a gearbox housing 18 on that from a pot-like housing part 19 and a lid-like housing part 20 exists, which are firmly connected, for example by pressing. The gearbox housing 18 can be rotated by means of radial bearings 21 on the piston rod 9 arranged and by means of thrust bearings 21a towards the housing 18 supported. On the cover-like part of the housing 20 is still a fastener 22 appropriate.
In the pot-like housing part 19 is one in the worm wheel 17 engaging snail 23 rotatably mounted, for example with a flexible shaft 24 is rotatably connected. The other end of the wave 24 is with, for example, a reduction gear 25 trained output of an electric motor 26 non-rotatably coupled. Depending on the structural conditions, the shaft can 24 naturally also be rigid.
If the engine 26 is then driven over the flexible shaft 24 and the worm gear 16 the piston rod 9 with the piston 12 driven with the consequence that - depending on the direction of rotation - on the spindle 6 in the housing 2 moved in or out of it. Due to the cross section of the piston rod 9 acting gas pressure becomes the extension movement of the piston rod 9 supported.
The threaded connection between the threaded spindle is preferred 6 and the internal thread 13 of the piston 12 not self-locking. If, in addition, the worm gear 16 and the engine 26 are not designed to be self-locking, the piston rod can be overloaded in the pulling or pushing direction 9 relative to the housing 2 be moved.
In the embodiment according to the 3 and 4 is an actuator 27 provided that also a cylindrical housing 28 having. The housing 28 has a cylindrical outer tube 29 and one concentric to the common central longitudinal axis 30 arranged in this inner tube 31 on. The outer tube 29 is in the area of one end by means of a bottom 32 closed, on which a fastener 33 is appropriate. The one between the outer tube 29 and the inner tube 31 formed ring space 34 and that through the inner tube 31 bounded space 35 are by one in the area of the floor 32 arranged in the inner tube 31 trained connection opening 36 connected to each other and form an interior filled with compressed gas 37 , The ring room 34 is sealed gas-tight to the outside in a manner to be described.
In the inner tube 31 is sealed against this a piston 38 in the direction of the axis 30 slidably arranged of the room 35 and overall the interior 37 limited. On the piston 38 is a piston rod 39 rotatably supported. For this purpose, the piston rod has 39 a journal 40 on that in a warehouse opening 41 of the piston 38 rotatable but radial to the axis 30 is supported immovably. Furthermore, the piston rod 39 via an axial roller bearing 42 on the piston 38 rotatably supported. A bearing disc 43 of the camp 42 is axially fixed, i.e. immovable, with the piston rod 39 connected. The piston rod 39 has an external thread essentially over its entire length 44 on. The piston rod 39 therefore also has the function of a threaded spindle. On the outside of the case 28 located end is on the piston rod 39 a fastener 45 appropriate. The unit described so far forms a gas spring 46 ,
On the floor 32 opposite end of the housing 28 is a gear transmission 47 provided its spur gear 48 by means of an internal thread 49 on the outside thread 44 the piston rod 39 is arranged. The gear 47 has a gearbox housing 50 on that from a pot-like housing part 51 and a lid-like housing part 52 consists. The pot-like housing part 51 has a ring-cylindrical closure part 53 by means of which the already mentioned gastight closure of the ring space 34 is effected to the outside. The pot-like housing part 51 is non-rotatable and axially fixed, for example by pressing, with the housing 28 connected. The lid-like housing part 52 is axially fixed and rotationally fixed, for example by pressing, with the pot-like housing part 51 connected. The spur gear 48 is opposite the case 28 and the gear housing 50 by means of radial or axial bearings 54 . 55 freely rotatable. In the gearbox housing 50 is still in the spur gear 48 engaging toothed pinion 56 stored, the rotationally fixed with a flexible shaft 24 is connected, which in turn in the manner already described with a motor 26 is coupled.
When driving the engine 26 is about the pinion 56 the spur gear 48 turned. As the piston rod acts as a threaded spindle when installed 39 and also the housing 28 are held non-rotatably, the piston rod 39 out of the housing 28 pushed out or retracted into this. By the gas pressure of the full cross section of the piston 38 acting gas is supported the extension movement. Since the biegsa me wave 24 parallel and immediately adjacent to the housing 28 runs, is this actuator 27 can be installed very space-saving.
The gear transmission 47 is not self-locking. Here too, the thread connection between the external thread advantageously applies 44 and internal thread 49 are not self-locking, so in the event of an overload between the fastening elements 45 and 33 the piston rod 39 even when the motor is not driven 26 in the housing 28 can drive in.
Basically, it is also possible to connect the thread and the torque to the motor 26 train self-locking. In such a case, it is advisable to provide a slip clutch. For an actuator as in the 1 and 2 is shown is a variant in 5 shown. This actuator 1' differs in the design of the worm gear 16 ' from the embodiment according to the 1 and 2 , As far as identical parts are available, the same reference numerals as in the 1 and 2 used; to the extent that functionally identical, but structurally differently designed parts are present, the same reference numbers are used, but are provided with a prime. The gearbox housing 18 ' consists of two housing parts 19 ' . 20 ' , which are non-rotatably connected to each other and against which the piston rod 9 ' is rotatable. The gearbox housing 18 ' is by means of two axial roller bearings 57 rotatable but axially fixed with the piston rod 9 ' connected.
The worm wheel 17 ' is not immediately non-rotatable with the piston rod 9 ' connected, but - deviating from the execution according to 1 and 2 - with the piston rod 9 ' via a slip clutch 58 connected. This has two on both sides of the worm wheel 17 ' arranged clutch discs 59 . 60 on, one of which is a clutch disc 60 that the camps 57 and the gas spring 15 is facing the piston rod 9 ' towards the gas spring 15 is axially fixed. Both clutch disks 59 . 60 are non-rotatable with the piston rod 9 ' connected; the the lid-like housing part 20 ' facing clutch disc 59 and the worm wheel 17 ' are in the direction of the axis 5 opposite the piston rod 9 ' displaceable. The last mentioned clutch disc 59 is by means of a pre-tensioned disc spring 61 loaded against one another on the piston rod 9 ' attached abutment 62 supported.
The function of the actuator 1' to 5 largely corresponds to the 1 and 2 , The torque is transmitted from the worm wheel 17 ' not - as with the 1 and 2 - By means of a positive connection directly on the piston rod 9 , but by means of a frictional connection via the slip clutch 58 on the piston rod 9 ' , If on the slip clutch 58 a torque acts that is greater than it by the bias of the plate spring 61 and the frictional relationships between the worm wheel 17 ' and the clutch discs 59 . 60 is specified, then this positive connection is released and the piston rod 9 ' can face the worm wheel 17 ' turn and thus avoid an overload. On the lower part of the housing 19 ' is a protective tube 2a appropriate.
In 6 is an embodiment with a two-tube gas spring 46 ' which, in principle, according to the 3 and 4 corresponds, and a worm gear 16 ' with slip clutch 58 to 5 shown. The reference numbers used in the figures already described are therefore used without a renewed description. The gas spring 4b ' differs from the gas spring 46 after the 3 and 4 only in that the closure part 54 ' of the ring room 34 not in one piece with the pot-like housing part 19 ' , but is formed separately from this. The internal thread 49 ' is located in the closure part 54 ' which is also opposite the case 28 is fixed against rotation. In this version, the worm gear moves 16 ' when retracting and extending the piston rod 39 ' with this as it is in the direction of the axis 30 opposite the piston rod 39 ' fixed. In this embodiment in particular, it is advantageous if the piston rod 39 via the axial roller bearing 42 on the piston 38 is rotatably supported.
In the 7 and 8th are installation examples for the actuators 1 . 1' and 27 . 27 ' shown. They are used in motor vehicles 63 that are over wheels 64 leaning on the floor and the one person cabin 65 and one with a lid 66 lockable hold 67 exhibit. These can be passenger vehicles with a trunk or smaller trucks or the like.
When running after 7 are actuators 1 or 1' or 27 ' provided that one on the lid 66 attached common motor 26 are driven. The housing 2 respectively. 28 are here by means of the fasteners 4 respectively. 33 on the respective side wall 68 of the hold 67 articulated while the fasteners 22 respectively. 45 on the lid 66 are articulated. Of course, the installation can be reversed, so that the motor 26 or two motors 26 can be placed anywhere in the vehicle.
When using after 8th are actuators 27 provided the fasteners 33 on the respective side wall 68 are articulated while on the piston rod 39 trained fasteners 45 on the lid 66 are articulated. Here too, installation can take place in the opposite direction.
How out 9 In addition, the engine can 26 also directly on the actuator 27 be attached. The output shaft 69 so far serves as a drive shaft 69 , The output shaft 69 of the electric motor 26 or the reduction gear subordinate to it 25 is here directly with the pinion 56 of the gear transmission 47 connected. The installation options depend on the spatial conditions.
The actuator 1'' to 10 differs from that after 1 and 2 in that between the floor 3 '' and the pot-like housing part 19 '' a compression spring 69 is arranged, which partially or completely extends the piston rod 9 causes. The use of such a compression spring 69 can be particularly useful when the actuator 1'' is subject to strong temperature fluctuations, which leads to considerable pressure fluctuations in the compressed gas filling in the interior 10 to lead. The characteristic of such helical compression springs 69 is significantly less temperature dependent. In extreme cases, the gas pressure in the interior 10 of the housing 2 be about atmospheric pressure, i.e. there is no compressed gas filling in the interior 10 , In this case, of course, the piston rod guide is required 8th not against the case 2 be sealed; the seal also needs 11 not be present. With this actuator 1'' So can two energy storage, namely the gas spring 15 and the feather 69 , or just an energy store, namely the spring 69 , to be available. Otherwise the previous description applies. Such a configuration with a helical compression spring can of course also be provided in the exemplary embodiments described above.
So that the spring 69 are securely supported are on the ground 3 '' an abutment 70 in the form of an edge and in the pot-like housing part 19 '' a corresponding abutment 71 formed in the form of a recess. Of course, the only decisive factor in this context is that the spring 69 between the housing 2 and the piston rod 9 attacks.
The actuator 1''' after the 11 and 12 does not have a gas spring, only a screw-compression spring 69 ''' as an energy store. It has a housing 2 ''' on, at the lower end of a fastener 3 ''' is rotatably attached. In the interior 1''' of the housing 2 ''' is a piston rod designed as a threaded spindle 9 ''' sliding bar arranged with an external thread 72 is provided. On her in the interior 10 ''' of the housing 2 ''' located end is this piston rod 9 ''' with a piston designed as a pure guide piston 73 provided against the inner wall of the housing 2 ''' is applied. On the fastener 33 ''' opposite end of the housing 2 '''is a threaded bushing in this 74 with an internal thread 75 attached, in which the external thread 72 the piston rod 9 ''' intervenes.
On the housing 2 ''' opposite free end of the piston rod 9 ''' is a gear transmission on this 47 ''' attached, the one rotatably with the piston rod serving as a spindle 9 ''' connected spur gear 48 ''' has, in turn, a pinion 56 ''' intervenes. The spur gear 48 ''' is by means of bearings 76 in a gearbox housing 50 ''' stored on the non-rotatable fastener 45 ''' is appropriate. As in the embodiment 3 and 4 is the tooth pinion 56 ''' with a drive coupling pin 77 provided, for example with a flexible shaft 24 can be coupled.
With the housing 2 ''' is in the range of the gear transmission 47 ''' a protective tube 78 connected, against its bottom 79 a compression spring 69 " 'supports. The floor 79 thus serves as an abutment 70 ''' for the compression spring 69 ''' , The latter is supported at its other end against a corresponding abutment 71 ''' on the gearbox housing 50 ''' from. From the above description it follows that the actuating element 1''' after fastening the fasteners 33 ''' . 45 ''' for example according to 7 and 8th is inherently non-rotatable, so that also the protective tube 78 , the gearbox housing 50 ''' who have favourited Screw Compression Spring 69 ''' and the housing 2 ''' are non-rotatable against each other. Only the piston rod serving as the spindle 9 ''' can turn. Because in the interior 10 ''' of the housing 2 ''' there is no compressed gas, the extension movement of the piston rod 9 ''' out of the housing 2 ''' only by the screw-compression spring 69 ''' supported. To protect the with an external thread 72 provided piston rod serving as a spindle 9 ''' is another protective tube 80 provided that between the spring 69 ''' and the piston rod 9 ''' is arranged, and that between the spring 69 ''' and the gearbox 50 ''' is set. At its the housing 2 ''' facing end surrounds this protective tube 80 the housing 2 ''' , This configuration is therefore also largely insensitive to temperature. Otherwise the previous description applies.
Length-adjustable actuator - with an energy accumulator ( 15 . 46 . 46 ' . 69 . 69 ''' ), - with a housing ( 2 . 28 . 2 ''' ), - with one from the housing ( 2 . 28 . 2 ''' ) guided out and displaceable piston rod ( 9 . 9 ' . 39 . 39 ' . 9 ''' ), - with a first fastening element ( 4 . 33 . 33 ''' ) at the outlet of the piston rod ( 9 . 9 ' . 39 . 39 ' . 9 ''' ) opposite end of the housing ( 2 . 28 . 2 ''' ) and - with a second fastening element ( 22 . 45 . 45 ''' ) at the outer end of the piston rod ( 9 . 9 ' . 39 . 39 ' . 9 ''' ) - with one in the energy stores ( 15 . 46 . 46 ' . 69 . 69 ''' ) integrated spindle drive between the housing ( 2 . 28 . 2 ''' ) and the piston rod ( 9 . 9 ' . 39 . 39 ' . 9 ''' ) and - with a drive shaft ( 24 . 69 ) with the piston rod ( 9 . 9 ' . 39 . 39 ' . 9 ''' ) is connected to the rotary drive.
Length-adjustable actuating element according to claim 1, characterized in that between the drive shaft ( 24 . 69 ) and the piston rod ( 9 . 9 ' . 39 . 39 ' . 9 ''' ) a gearbox ( 16 . 16 ' . 47 . 47 ' . 47 ''' ) is provided.
Length-adjustable actuating element according to claim 2, characterized in that the gear as a worm gear ( 16 . 16 ' ) is trained.
Length-adjustable actuating element according to claim 2, characterized in that the gear as a gear transmission ( 47 . 47 ''' ) is trained.
Length-adjustable actuating element according to one of claims 2 to 4, characterized in that the gear ( 16 . 16 ' . 47 ''' ) with the piston rod ( 9 . 9 ' . 39 ' . 9 ''' ) is axially fixed.
Length-adjustable actuating element according to one of claims 2 to 4, characterized in that the gear ( 47 ) with the housing ( 28 ) is axially fixed.
Length-adjustable actuating element according to one of claims 1 to 6, characterized in that the spindle drive and / or the gear ( 16 . 16 ' . 47 ) are designed to be self-locking.
length adjustable actuator according to one of the claims 1 to 7, in particular according to claim 7, characterized in that An overload clutch is provided in the rotary drive connection is.
Length-adjustable actuating element according to claim 8, characterized in that the overload clutch as a slip clutch ( 58 ) is trained.
Length-adjustable actuating element according to one of claims 1 to 6, characterized in that the spindle drive and the gear ( 16 . 16 ' . 47 . 47 ''' ) are not designed to be self-locking.
Length-adjustable actuating element according to one of claims 1 to 10, characterized in that the drive shaft ( 24 ) with a motor ( 26 ) is connectable.
Length-adjustable actuating element according to one of claims 1 to 11, characterized in that a motor ( 26 ) on the housing ( 28 ) is attached.
Length-adjustable actuating element according to one of claims 1 to 12, characterized in that the energy store as a gas spring ( 15 . 46 . 46 ' ) is formed, the housing ( 2 . 28 ) an interior filled with a compressed gas ( 10 . 37 ), and from its housing ( 2 . 28 ) the piston rod ( 9 . 9 '; 39 . 39 ' ) is led out sealed.
Length-adjustable actuating element according to one of claims 1 to 13, characterized in that the energy accumulator by a compression spring ( 69 . 69 ''' ) is formed, which is between the first fastening element ( 4 . 33 ''' ) and the second fastener ( 22 . 45 ''' ) is arranged.
Length-adjustable actuating element according to claim 14, characterized in that the compression spring ( 69 ''' ) at least partially in a protective tube ( 78 ) is arranged.
DE2003130176 2002-11-02 2003-07-04 Length adjustable actuator Expired - Fee Related DE10330176B4 (en)
DE10251009 2002-11-02
DE10251009.1 2002-11-02
DE2003130176 DE10330176B4 (en) 2002-11-02 2003-07-04 Length adjustable actuator
DE20321712U DE20321712U1 (en) 2002-11-02 2003-07-04 Length adjustable actuator
DE20321710U DE20321710U1 (en) 2002-11-02 2003-07-04 Length adjustable actuator
US10/661,546 US7487709B2 (en) 2002-11-02 2003-09-15 Adjustable-length actuating element
DE10330176A1 true DE10330176A1 (en) 2004-05-13
DE10330176B4 DE10330176B4 (en) 2008-11-27
ID=32103259
DE2003130176 Expired - Fee Related DE10330176B4 (en) 2002-11-02 2003-07-04 Length adjustable actuator
DE20321712U Expired - Lifetime DE20321712U1 (en) 2002-11-02 2003-07-04 Length adjustable actuator
DE20321710U Expired - Lifetime DE20321710U1 (en) 2002-11-02 2003-07-04 Length adjustable actuator
DE (3) DE10330176B4 (en)
EP1741866A2 (en) * 2005-07-08 2007-01-10 Stabilus GmbH Apparatus for powered moving of a vehicle lid pivotable around an axis of rotation
EP1767439A2 (en) * 2005-06-27 2007-03-28 Stabilus GmbH Drive unit
DE102008061115A1 (en) 2008-12-09 2010-06-10 Suspa Holding Gmbh Spindle actuator with overload clutch
DE102008061116A1 (en) 2008-12-09 2010-06-10 Suspa Holding Gmbh Spindle actuator with decoupling device
DE102008061117A1 (en) 2008-12-09 2010-06-10 Suspa Holding Gmbh Spindelaktor
US9109676B2 (en) 2010-08-31 2015-08-18 Stabilus Gmbh Adjusting drive
DE102014114737A1 (en) * 2014-10-10 2016-04-14 Brose Fahrzeugteile Gmbh & Co. Kg, Hallstadt Spindle drive for an adjusting element of a motor vehicle
WO2016083194A1 (en) * 2014-11-27 2016-06-02 Brose Fahrzeugteile Gmbh & Co. Kg, Hallstadt Spindle drive for a closure element of a motor vehicle
DE29919214U1 (en) * 1999-11-03 2000-01-05 Dewert Antriebs Systemtech Electromotive furniture drive
DE10018811B4 (en) 2000-04-15 2011-06-01 Suspa Holding Gmbh -Length adjusting device
2003-07-04 DE DE2003130176 patent/DE10330176B4/en not_active Expired - Fee Related
2003-07-04 DE DE20321712U patent/DE20321712U1/en not_active Expired - Lifetime
2003-07-04 DE DE20321710U patent/DE20321710U1/en not_active Expired - Lifetime
EP1767439A3 (en) * 2005-06-27 2013-04-03 Stabilus GmbH Drive unit
EP1741866A3 (en) * 2005-07-08 2013-06-26 Stabilus GmbH Apparatus for powered moving of a vehicle lid pivotable around an axis of rotation
DE20321710U1 (en) 2009-01-22
DE10330176B4 (en) 2008-11-27
DE20321712U1 (en) 2009-01-22
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2017-11-14 R081 Change of applicant/patentee
Owner name: SUSPA GMBH, DE
Free format text: FORMER OWNER: SUSPA HOLDING GMBH, 90518 ALTDORF, DE