• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A storage device for movably supporting at least a part of a support object (T) such as a piece of furniture, in particular a bed, comprises at least one rolling body (103), a receptacle (101) and a support (107), wherein the rolling body (103) at least partially between the receptacle (101) and the support (107) is arranged. The rolling body (103) is arranged movably on the receptacle (101) along at least one spatial direction.
    公开号:CH714393A2
    申请号:CH01432/18
    申请日:2018-11-20
    公开日:2019-05-31
    发明作者:Batliner Carl
    申请人:Carl Batliner Inlico Ag;
    IPC主号:
    专利说明:

    description
    PRIOR ART Studies such as “Rocking synchronizes brain waves during a short nap” Bayer, Laurence, 2011 of the University of Geneva prove that swinging or rocking movements of beds help people fall asleep faster, sleep longer, and become better relax.
    There are various forms of furniture and in particular chairs and beds that allow the oscillation and vibration of the entire piece of furniture or furniture parts. Hammocks, rocking chairs and beds or suspended beds and seating, such as Hollywood swings, should be mentioned in particular.
    The aim of the desired solution, however, is to put existing pieces of furniture that cannot be easily moved into motion by simple adoption by means of suitable storage and drive.
    This storage and drive concept is not only applicable to furniture, but also other objects. In addition to the function of setting carrier objects in motion, exactly the opposite can also be achieved by keeping carrier media still by mass inertia or controlled countermovement to the environment.
    Storage There are some substructures and attachments that allow an existing, I stationary carrier object to be flexibly / movably stored. The following lists reflect the categories of the commercially available types of substructures and extensions, which allow supporting objects to be stored in such a way that they can be set in motion:
    1. Rubber dampers: dampers made of elastomer composite materials are known in particular from machine and measuring equipment construction, which essentially protect the devices from environmental vibrations, but also allow a certain natural vibration of the devices depending on the design.
    2. Springs: Springs made of metal are also used, particularly for measuring medium storage, but also for various pieces of furniture, which due to their design also absorb vibrations.
    3. Magnetic bearings: The repulsive and attractive force of magnetic poles is used to ensure contact-free and flexible storage based on the magnetic field.
    4. Radial & Axial Ball Bearings: This form of storage focuses either on the rotatability or on the simple relocation of support objects and is often found as a combination of radial and axial bearings, such as for office chair casters.
    5. Liquid storage: Liquids such as oils or water can be used as a bearing layer between two solid components. Based on the viscosity and volume of the liquid used, this liquid must be bound to the storage location in a container and by means of a seal. With a very small volume in relation to the distance from the bearing base and the solid to be stored, such a limitation can be dispensed with for a certain time, for example oil film.
    6. Gas storage: Similar to liquids, gaseous media that are bound in a container can be used to store vibrating carrier objects. For this purpose, for example, ambient air in a kind of balloon sheath is used or gas springs.
    7. Slidable surfaces and materials: Bearings / running surfaces with very low frictional resistance and special sliding properties are also suitable for the flexible storage of carrier objects. On the one hand, this can be ensured by very smooth surfaces or by coatings such as polytetrafluoroethylene «Teflon».
    Drive The second part in addition to the storage to set a carrier object in motion I is the drive. In addition to the obvious drive through physical strength such as. The following drive types exist when swinging:
    1. Body strength without a fixed point: A movement initiated by muscle strength of the person (kinetic energy) who uses the rocking piece of furniture.
    2. Fixed point: Most of the driven solutions transmit a movement to the movably mounted carrier object from an external fixed point such as the floor or wall. This movement can be initiated by the muscular strength of an internal (on support object) or external person, stored potential energy such as masses under attraction or tensioned springs or by means of motors.
    CH 714 393 A2
    3. Driven storage: A special adoption of the fixed point motion transmission are solutions in which the storage of the carrier object is driven directly. However, this type of storage is usually not suitable for free movement using physical strength, but the carrier object must be deliberately driven and thus set in motion by the controlled storage. (US 2017 318 978, KR 101 731 220, AU 2016 225 053, US 2017 258 241).
    4. Drive individual components; There are also solutions in which the entire carrier object is not set in motion, but vibrations are transmitted to a part (for example only slatted frame or mattress) of the carrier object. (WO 2017 165 767) [0007] Each of these types has its own advantages and areas of application with regard to freedom of movement, resistance, assembly effort, manufacturing and operating expenses, functionality, ease of use, service life, etc.
    Problem All of the types listed in the prior art have certain disadvantages.
    1. Freedom of movement: Some of the designs presented only allow a small radius of movement and only predetermined directions, since they are actually designed to return to their original position independently. As a result, you do not fulfill the desired functional behavior (state of the art: 1, 2 & 3)
    2. Resistance: Often accompanied by the lack of freedom of movement, there is also a high level of vibration resistance, which has to be applied against a resilient element and which also means that the initiated movement is slowed down and the piece of furniture soon comes to a standstill again.
    3. Assembly effort: Some of the designs presented cannot be retrofitted or assembled on an existing piece of furniture, or only with great effort. In particular, the connection of the drive between the fixed point and the moving piece of furniture is associated with some assembly effort.
    4. Resilience: Especially in the furniture sector, some existing constructions are only designed for small children, since it is difficult to guarantee a structure for higher loads, both in terms of weight and service life.
    5. Replacement: Most solutions require replacement of the piece of furniture or parts of it.
    6. Manufacturing & operating expenses: Particularly driven bearings are quite complex to manufacture and also cause high operating costs. Likewise, the permanent magnets required for magnetic bearings to carry the weight of a piece of furniture and the body weight of a person are expensive, or electricity is required to generate the magnetic field (prior art; 3, & 8)
    7. Controllability: Not all solutions offer the possibility of preventing the vibration behavior of the piece of furniture even without a separate device. Likewise, the oscillation frequency and the deflection cannot be freely selected in most solutions. In addition, parameters such as time and duration, based on the state of the user, can usually not be automated.
    3. Noise nuisance: Especially when using drives in the sleeping area, the noise level is an important issue, most motors and various bearings can cause noise irritation.
    9. Flexibility: Most solutions do not offer a free combination of driven and freely movable operating modes.
    Problem solution (invention) The problem solution was found by the movable bearing based on a rolling body, in particular a ball, and a motion-generating drive device with and without an external fixed point reference.
    The storage is introduced between the floor and the contact surface of the support object and thus enables a flexible storage of a wide range of products. In addition, the assembly effort is kept universal and low.
    At the heart of the movable bearing are balls (rolling body) whose tread are limited, but can roll freely within these treads. This structure is positioned at different contact points between the carrier object and the base. The running surfaces of the balls are ideally limited in such a way that the weight of the carrier object is always above at least one center point of the ball and thus the load is diverted via the ball into the base and therefore the carrier object cannot tip over. Bearings of ball bearings are particularly suitable for this.
    CH 714 393 A2 In addition to the movable support, which can be set in motion by body movement and muscle strength, it is also possible to actively drive this support. This drive can be based on a fixed point or without a fixed point.
    On the one hand, a universal drive has been developed, which can be used for all movably mounted furniture and a large number of other support objects and which is attached purely to the support object and thus does not require an external attachment point. The developed solution consists of both a simple and an extended variant.
    The simple variant of the radial drive represents a rotating motor that creates an unbalance due to attached weights. This unbalance can be adjusted by changing the driven weight, as can the number of revolutions and the direction of rotation of the motor. The vibration that the motor generates is transmitted to the movably mounted carrier object and thus sets it in motion.
    The extended variant of the axial drive represents one or more magnetic linear drives which accelerate and brake a mass and thereby also set the movably mounted carrier object in motion. Depending on the number and arrangement of the linear drives, the direction of movement (shape), the amplitude of movement (path) and the frequency of movement (number of vibrations / time unit) can be set.
    In addition to the drives without an external fixed attachment point, it is also possible to drive the individual bearing points between the base and the support plate of the carrier object.
    A preferred variant for a fixed point-dependent drive of the individual bearing points is a radial drive about a vertical Z axis, which rests on the floor and in which the actual bearing point on which the piece of furniture is offset from the Z axis to the outside by the drive rotates concentrically around the center of the drive. The storage on several support points by means of rolling bodies allows this movement of the bearing points to be transmitted in the same shape to the entire piece of furniture.
    In an expanded variant of this drive of the individual bearing points, this can also be accomplished, for example, by inclining the contact surface of the rolling bodies and thus shifting the position of the rolling bodies. This allows a freer movement pattern than the rotation movement around a fixed contact point.
    A special feature of the drive is the control loop between user-defined input, the drive power thus triggered and the vibration generated depending on parameters such as storage, support object and other loads, which is measured and on which the drive power is adjusted.
    The combination of movable storage of support objects and their fixed point independent drive makes it easy to set all possible support objects in motion. In the case of furniture, this results in better relaxation for the users, and this can also be used for a further area of application of the massage, alarm function and the recording and evaluation of corresponding data. Objects can also be kept still against this environmental movement by this storage and the drive.
    Description The storage device 100 for movably supporting at least a part of a carrier object T comprises at least one rolling body 103, a receiving or receiving plate 101 and a support or a supporting plate 107, the rolling body 103 at least partially between the receiving 101 and the support 107 is arranged. At least one receptacle has a receptacle surface on which the rolling body can be moved at least along a spatial plane. The bearing device 100 is arranged or formed at least on a running surface, the running surface 102 advantageously being detachably arranged on the receptacle 101 and further advantageously the running surface 102 being at least partially flat, conical, convex or concave, alternatively the receptacle 101 extends at least partially into the Pad 107. The receptacle 101 has at least one first boundary 108 for limiting movement of the rolling body 103, the first boundary 108 advantageously bordering the receptacle 101, at least in sections, but preferably in full. Alternatively, the support 107 has at least one further limitation 109 for limiting movement of the rolling body 103, the further limitation 109 advantageously bordering the support 107 at least in sections or preferably completely surrounding it. The bearing device 100 is preferably separated from the tread 102 and the support 107 has another tread. Alternatively, the support 107 has a further running surface 106, the rolling body 103 being movable on the further running surface 106 and the rolling body 103 advantageously being movable along at least one spatial direction on the further running surface 106, the further running surface 106 in particular being detachably on the support 107 is arranged and the further tread 106 is advantageously at least partially flat, conical, convex or concave. The bearing device advantageously has a catch 104 on the support 107, which is advantageously arranged to be movable, the catch 104 preferably being designed as a bayonet catch. The bearing device 100 has a tread boundary 105, which is preferably detachably arranged on the locking device 104. The drive device 200; 300 for driving, preferably fixed point-independent, at least the bearing device 100 has at least one drive device. This drive device advantageously has at least one linear drive 202, 203, alternatively at least one motor 301, which additionally has a flywheel 204; 304 for driving the storage device 100.
    CH 714 393 A2
    Between the at least one drive device and the at least one flywheel mass 204; 304 at least one flywheel is arranged.
    [0022] The drive device 400 for driving at least the bearing device 100 as a function of the fixed point has at least one drive. This drive device advantageously has at least one rotary drive 411 which, owing to the axis center offset Y of the bearing device 100, ensures a concentric rotary movement about a vertical Z axis, which is thus transmitted to the carrier object T.
    The drive device 200; 300; 400 has at least one drive control and advantageously a communication unit, which can advantageously be connected to at least one further external communication unit, advantageously to an external mobile phone, for exchanging communication data, the communication data advantageously comprising information on the storage device 100. The drive device 200; 300; 400 is arranged at least on part of the carrier object T.
    An alternative or additional embodiment of the storage device 100 is used for the oscillating storage of beds. Each bed post T is placed on its own storage location or, depending on the bed post, also connected to it. The storage consists, on the one hand, of a receptacle or a receiving plate 101, which rests on the floor as base B. This mounting plate can compensate for a wide variety of floor conditions and is also preferably attached to the floor with screws. Buffers made, for example, of elastomers on the underside of the receiving plates protect both the bottom and the receiving plate from displacement. The lower running surface 102 is inserted in the receiving plate, which absorbs the main load on the rolling body and distributes it over a larger area. As a result, the treads can be exchanged in terms of wear and various running properties, for example by a flat, conical or convex shape or by the material from, for example, metal to elastomer, and at the same time the requirements for the material properties of the receiving plate can be reduced.
    The preferred embodiment of the storage device 100 is used for the oscillating storage of beds. Each bed post (carrier object T) is placed on its own bearing 107; 407 set. The bearing is integrated 400 in a fixed point-dependent drive. In this case, the drive housing 410 lies on the floor as the base (B). The motor 411 mounted in the drive housing transmits the rotation via an input and output wheel 412; 413 on the tread below 102; 402. Due to the axis offset Y from the Z-axis of rotation of the drive housing 410 to the bed post T, the bed post rotates concentrically about the Z-axis of rotation. Due to the identical storage and synchronization of the different bearing points, the rotational movement is transferred to the entire bed. The motor 411 is provided with the drive wheel 412 and / or the driven wheel 413 for rotatingly driving the at least one running surface 102; 402 or for rotatingly driving the motor 411 about the Z-axis of rotation. The bearing device 100 is preferably spaced at least in sections by the axis offset Y from the Z-axis of rotation.
    The rolling body 103 is then preferably placed in the form of a ball or a ball bearing ring on the lower tread. For the safe storage of a bed, at least 3 such storage positions must be attached, which are synchronized in their movement by the connection via the fixed bed frame. The ball will center itself depending on the shape of the tread. To reduce noise and material wear, for example, an elastomer ball can be used. Due to the weight loads, the ball should be equipped with a stable core. From a price point of view, however, it is also possible, for example, to use a pure metal ball. This ball, like the treads, can easily be replaced when worn, etc.
    The package of the upper bearing components is then positioned concentrically with the receiving plate. Here, a height adjustment, for example in the form of a bayonet thread 104, enables the upper support plate to be positioned on the ball without the ball moving or the support plate tipping over. Similar to the lower running surface, there is again an exchangeable upper running surface 106 between the ball and the support plate. There are also fastening options, for example in the form of screws or angles on the support plate, which enable a mechanical connection to the bed post and thereby also accommodate small bed posts and ensure greater safety can. Basically, a sufficiently large bed foot is simply placed on the locking support plate. As long as the outer edge of the bed foot is not rolled over the center of the roll body, the weight and the footprint stored on a rubber gasket are sufficient to hold the bed securely on the support surface. In the case of special forms of the bed feet, it may be necessary to attach the bed foot to the bearing or to limit the freedom of movement by means of tread limit 105. For example, interchangeable or adjustable rings, which can only be held on the locking device by means of an O-ring, act as a stop, which can individually limit the movement in horizontal directions.
    If it is desired to generally suspend the movement, the lock 104 used for the construction is also available for this purpose. By using the lock, the ball is blocked and relieved of the bed load.
    Another alternative of locking via the drive is to use the fixed point-dependent drives of several bearing points to position the different drives via the control system at different angular positions and thus to limit the freedom of movement of the rolling bodies and correspondingly the entire storage.
    CH 714 393 A2 The bed thus mounted is driven by means of a radial or axial drive with or without a fixed point. This drive device has at least one drive device. Each bearing point is preferably driven separately by means of a radial drive 411 with an axis offset (Y) concentric to the vertical Z-rotation axis of the support base.
    [0031] In a further or additional embodiment of the drive device, 2 axial linear motors 201; 202 with flywheels 203; 204, attached to the movable bed in the longitudinal and transverse directions. This can be done, for example, within a drive housing that is attached to the bed base as support object T of the bed from below.
    A similar drive device with fewer degrees of freedom can also be achieved via a radially rotating drive (VII) which has an adjustable unbalance weight or flywheel mass 303; 304 drives.
    By selecting the desired operating modes (vibrate, rock lengthways or crossways, orbit, etc.), for example by means of a drive control connected to the mobile phone via Bluetooth, the drives are set in motion. By accelerating the drive mass including additional weights 203, 204; 304 I transfers the resulting force to the movably supported bed. Depending on the weight and storage of the entire stored object (bed with contents) and the own movement of the bed occupants, the identical control variables (frequency, amplitude & time) do not always achieve the same movement of the bed. Therefore, the acceleration sensors of the mobile phone determine which movement really arrives at the bed and the variables are readjusted using a corresponding control circuit. In addition, the aging standard of the bearings and the drive can be checked and reacted to at an early stage. The activities during sleep can also be better recorded and analyzed via the mobile bed positioning and the movement sensor of the mobile phone.
    If a moment of motion is transmitted to the bed unconsciously during sleep or consciously by a controlled drive, the ball can roll between the lower and upper bearing surface. The lower storage area, including the mounting plate, is usually at a standstill, while the ball travels half the way from the upper storage area, including the associated mounting plate and the bed. As soon as the bearing run limit or locking ring hits the stop edge of the mounting plate, which is protected by an elastomer buffer, for example an O-ring, the movement is stopped and redirected depending on the drive type and running surfaces.
    In one of the movable storage of a carrier object on a base on one or more rolling bodies, the carrier object covers twice the path of the rolling bodies (1x) when the base is stationary. The carrier object, on the other hand, performs the same opposite path as the base when the base is movable, provided that the rolling body maintains the same rotational center position. In the absence of a mechanical connection between the support object and the bearing, the running surface limitation prevents the outer edge of the support object from rolling over the central non-positive point of the rolling body. The tread can be limited by variable tread limits and thereby specify different freedom and forms of movement. The movable storage can be prevented by a lock. In addition, the locking facilitates the initial positioning of the carrier object over the rolling bodies. The lock can either limit the storage as a whole or only the rolling body in freedom of movement. It cancels the pure frictional connection over the rolling body and creates a direct frictional connection from the carrier object to the base. The two parallel treads, which touch the rolling elements, are easily exchangeable. Depending on the area of application of the movement, the treads can have different shapes, for example flat, concave, convex, conical, etc. They also help center the roll body.
    The storage described for furniture, machines, measuring equipment, play and sports equipment, care and medical technology and research, in the transport sector and other areas can also be used to ensure a balancing alternative to prevent movement in areas of moving environmental influences.
    The drive can be done directly on the movable bearing by means of a connection to the base or, alternatively, independently of an external fixed point such as the base. The movably mounted or, for example, suspended support objects can be set in motion by the kinetic energy which is generated by means of one or more radial or linear drive units by accelerating a mass.
    In the case of drive systems which are independent of the fixed point, the momentum of an accelerated and stopped mass is transmitted to the carrier object and this sets it in motion. For the drive, the movement frequency as well as the movement amplitude, movement direction, duration and time can be changed using hardware settings or software parameters. The drive is controlled by comparing the specified and achieved movement data depending on various application areas and designs, e.g. using a mobile phone app and acceleration sensor.
    Functionally, the present development can be divided into the following areas:
    1. Storage: Storage takes place over several storage locations on at least one rolling element per storage location.
    CH 714 393 A2
    2. Movement sequence: The base mount is fixed on the base (floor) via the weight transfer of the carrier object, while the rolling body rolls on the tread and the carrier object support travels twice in the same direction as the rolling body.
    3. Limited freedom of movement: The freedom of movement of the rolling body is limited by the tread limits and corresponding stops and thus prevents the traction point from rolling over through the center of the rolling body over the outer edge of the supporting object resting on the supporting object support.
    4. Locking: By locking the movement of the bearing and the rolling body, the weight of the carrier object is derived in addition to the rolling body.
    5. Interchangeable part: In order to prevent wear and ensure customer loyalty, certain components such as the rolling elements or the running surfaces can be designed as wear parts that are simply replaced after their service life.
    The present storage on rolling body and the drive regardless of a fixed point was developed to move furniture pieces explicitly beds, but the scope is not limited to this. It is conceivable that the combination as well as the bearing and drive are used separately in other areas. In particular, areas are obvious here that currently use other solutions that have been described in the prior art. In particular, areas of application are also conceivable in which the opposite of a movement to be initiated is sought and this structure or parts thereof are used to compensate for movements in the environment.
    Description of the components for movable storage: Drawing 1 [0041]
    B base
    101 recording plate / recording
    102 tread below
    103 roll body
    104 lock
    105 tread limit
    106 tread on top
    107 support plate / support
    T carrier object
    Description of the components for the fixed point Axial independent drive: Drawing 2 [0042]
    201 linear actuator 1
    202 linear actuator 2
    203 mass 1
    204 mass 2
    205 drive housing
    206 attachment
    T carrier object
    Description of the components for the fixed point independent drive radial: Drawing 3 [0043]
    301 radial drive
    CH 714 393 A2
    302 flywheel
    304 unbalanced mass / flywheel mass
    305 drive housing
    306 attachment
    T carrier object
    Description of the components for the fixed point-dependent drive from the bearing point: Drawing 4 [0044]
    401 recording plate / recording
    402 tread below
    403 roll body
    405 tread limit
    406 tread on top
    407 support plate / support
    410 drive housing
    411 drive
    412 drive wheel
    413 driven gear
    414 radial bearings
    T carrier object
    Advantages achieved [0045] The simple construction of the mounting on the rolling body enables inexpensive, low-maintenance and, above all, universal mounting of support objects, which ensures high freedom of movement with little resistance. In combination with the drive, this ensures that the application can be easily adapted to the respective circumstances.
    The following goals are achieved by the present combination of movable mounting and fixed point independent drive:
    Universal: The combination of movable bearings and fixed point independent drive allows use with a wide variety of different designs of the support objects.
    2. Easy assembly: The support objects only have to be placed on the movable support and the drive only has to be attached to the support object and not to an external fixed point.
    3. Freedom of movement: The design of the bearing and the absence of a connection between the drive and an external fixed point guarantee the greatest possible freedom of movement for the carrier object.
    4. Low resistance: Due to the separation of the bearing and the drive, as well as the specific design of the bearing, hardly any energy is required to set the carrier object in motion, which is why it can be moved, for example, even without drive using physical strength.
    5. Quiet running: Both the bearings and the drive guarantee the lowest possible noise pollution.
    6. Lifespan: The design of the bearing and drive is designed to be as tight as possible and enables the components to be changed easily when the lifespan is reached.
    7. Combinability: Both the bearing and the drive can be used independently.
    CH 714 393 A2
    8. Control loop: The free movement of the support object on the storage, in combination with the control of the drive and the measurement of the effectively achieved movement of the support object, enables a control circuit to be established between input and result and the corresponding data to be processed.
    9. Flexibility: In contrast to other designs, this setup can be used with or without a drive and can easily be converted from one carrier object to another.
    权利要求:
    Claims (10)
    [1]
    claims
    1. Storage device (100) for movably supporting at least a part of a carrier object (T) comprising at least one rolling body (103), a receptacle (101) and a support (107), the rolling body (103) at least partially between the receptacle (101 ) and the support (107), characterized in that the rolling body (103) on the receptacle (101) is arranged to be movable along at least one spatial direction.
    [2]
    2. Storage device (100) according to claim 1, characterized in that at least one tread (102) is arranged or formed on the receptacle (101), the tread (102) being in particular detachably arranged on the receptacle (101) and further in particular the tread (102) is at least partially flat, conical, convex or concave and / or the receptacle (101) extends at least partially into the support (107).
    [3]
    3. Storage device (100) according to claim 1 or 2, characterized in that the receptacle (101) has at least one first boundary (108) for limiting movement of the rolling body (103), the first boundary (108) in particular the receptacle ( 101) bordered at least in sections, preferably bordered completely, and / or the support (107) has at least one further limitation (109) for limiting movement of the rolling body (103), the further limitation (109) in particular the support (107) at least in sections edged, preferably fully edged.
    [4]
    4. Storage device (100) according to one of claims 1 to 3, characterized in that the receptacle (101) is without a running surface (102) and the support (107) has a different running surface, or that the support (107) has a further running surface (106), the rolling body (103) being movable on the further running surface (106) and the rolling body (103) being movable in particular along at least one spatial direction on the further running surface (106), the further running surface (106) in particular being detachable is arranged on the support (107) and the further tread (106) is in particular at least partially flat, conical, convex or concave.
    [5]
    5. Storage device (100) according to one of claims 1 to 4, characterized in that at least on the support (107) a locking device (104), in particular movably arranged, wherein the locking device (104) is preferably designed as a bayonet lock.
    [6]
    6. Storage device (100) according to one of claims 1 to 5, characterized in that the storage device (100) has a tread limit (105), which is preferably arranged on the locking device (104), in particular detachably arranged on the locking device (104) is.
    [7]
    7. Storage device (100) according to one of claims 1 to 6 with a drive device (200; 300; 400) for driving at least the storage device (100), characterized in that the drive device (200; 300; 400) has at least one drive device, in particular at least one linear drive (202, 203) and / or at least one motor (301; 411), which in particular is rotatably mounted about an axis of rotation (Z) or which in particular has at least one flywheel (204; 304) for driving the at least one bearing device (100 ) having.
    [8]
    8. Storage device (100) according to claim 7, characterized in that at least one flywheel is arranged between the at least one drive device and the at least one flywheel mass (204; 304) and / or the motor (411) with a drive wheel (412) and / or an output wheel (413) for rotatingly driving the at least one tread (102; 402) or for rotatingly driving the motor (411) about an axis of rotation (Z), the bearing device (100) preferably at least in sections about an axis offset (Y ) is spaced from the axis of rotation (Z).
    [9]
    9. Storage device (100) according to claim 7 or 8, characterized in that the drive device (200; 300; 400) has at least one drive control and advantageously has a communication unit, which advantageously with at least one further external communication unit, in particular with an external mobile phone, is connectable for the exchange of communication data, the communication data in particular comprising information about the storage device (100).
    [10]
    10. Storage device (100) according to claim 7 to 9, characterized in that j the drive device (200; 300) is arranged at least on a part of the carrier object (T).
    CH 714 393 A2
    CH 714 393 A2
    Fixed point independent drive Axial
    CH 714 393 A2
    CH 714 393 A2
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    同族专利:
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    DE102018009068A1|2019-07-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    MX2017011008A|2015-02-27|2018-01-16|Happiest Baby Inc|Infant calming/sleep-aid and sids prevention device with drive system.|
    US10575652B2|2016-03-12|2020-03-03|Mark Russell|Rocking bed with braking mechanism|
    US20170273475A1|2016-03-25|2017-09-28|Halo Innovations, Inc.|Vibration device for beds|
    US20170318978A1|2016-05-04|2017-11-09|James Flemister|Smart Rocking Bed Device and System|
    KR101731220B1|2016-12-08|2017-05-08|주식회사 매트지|Powered rocking bed|
    法律状态:
    2021-07-30| AZW| Rejection (application)|
    优先权:
    申请号 | 申请日 | 专利标题
    DE102017010889|2017-11-24|
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