• 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:
    The invention relates to a chassis for transport devices with a holder, a in the holder about a first, substantially vertical axis pivotable wheel carrier, are arranged on the two rotatable about a common axis of rotation wheels and a universally applicable transport device.
    公开号:AT519463A4
    申请号:T600092017
    申请日:2017-01-28
    公开日:2018-07-15
    发明作者:
    申请人:
    IPC主号:
    专利说明:

    SUMMARY
    The invention relates to a chassis for transport devices with a holder, a wheel carrier which can be pivoted in the holder about a first, essentially vertical axis, on which two wheels which are rotatable about a common axis of rotation are arranged, and a universally usable transport device.
    1.29
    The invention relates to a chassis for transport devices with a holder, a wheel carrier which can be pivoted in the holder about a first, essentially vertical axis, on which two wheels which are rotatable about a common axis of rotation are arranged, and a universally usable transport device.
    In particular, this invention relates to a drive system for highly agile and precisely controllable transport devices for the automated transport, pick-up and delivery of transport goods, transport containers or pallets, as well as for highly agile platforms that are equipped with automated handling devices (e.g. gripping, supporting, holding and Clamping devices), automated work equipment (e.g. for riveting, screwing, welding, painting, grinding or polishing work), complex robot systems (e.g. articulated arm robots) or other devices to perform tasks in particularly vulnerable or inaccessible Areas (e.g. remote-controlled detection, rescue or defusing potentially dangerous objects) with steerable wheel units integrated in the chassis.
    From GB 820 228 B a stacking vehicle with a U-shaped chassis is known, each leg of the chassis having a wheel unit with steerable wheels. The wheel units can be operated centrally via a steering device.
    AT 409 369 B discloses a device for transporting goods by means of a gantry lifting device which is provided with all-wheel steering, the wheels which can be moved in guides being pivoted through 90 °.
    DE 33 24 862 A1 describes a steering mechanism for a vehicle with all-wheel steering with a lever linkage connecting the wheels to one another.
    Autonomous driverless transport systems are known from the publications EP 2 062 837 Al, WO 05/118 436 Al, DE 30 03 287 Al, DE 33 28 241 Al, DE 24 35 494 Al, DE 10 2007 046 868 Al, DE 10 2013 017 062, EP2 336 075 Bl known.
    US 5,623,818 A shows a four-wheel vehicle, the wheel units of which are individually, e.g. are driven by hydraulic motors. Two wheel units are mechanically coupled so that the vehicle can rotate on the stand.
    2.29
    GB 2 042 217 A discloses a self-propelled transport vehicle with a steerable drive wheel and two support wheels, the rotational movement of which is detected by sensors.
    WO 2012/096570 discloses a mobile vehicle or a transfer device with drive wheels, the axes of rotation of which are oriented parallel in one plane, essentially parallel to the ground, and which are each oriented in the desired direction of travel about a second axis perpendicular to the plane by means of a second independent drive unit ,
    A driverless industrial truck with light or ultrasonic sensors is known from DE 42 34 174 A1, a driving correction being carried out when the sensors indicate a malposition.
    DE 10 2007 04 868 and DE 10 2013 017 062 show a drive system for an automated transport system for pallets consisting of two wheel units, each with two independently driven wheels, so that these determine the direction of travel of the drive unit and the transport system as desired by regulating the peripheral speed Can take turns; the drive unit is mounted so that it can be rotated vertically in the middle and the drive unit can also be swiveled horizontally so that it can compensate for uneven floors.
    Furthermore, a drive system for a driverless transport device is known from EP 2 336 075 B1, which is designed with steerable wheel units, each of which consists of two individually driven wheels, is rotatably mounted about a vertical axis and whose direction and speed are influenced via a speed control Drive wheels are done.
    In particular when automatically picking up transport goods or pallets, when docking at fixed transfer stations or when performing precise work using automated handling or working devices on the transport device, the problem arises that the transport device and the pallet or the transfer station are aligned exactly with one another must be, or the handling or working device must be precisely aligned to certain positions and the travel path also follows a defined movement path without reversing. This requires a special one
    3/29 precisely operating drive and positioning system and assumes that in such drive systems with steerable wheel units, both drive wheels of one wheel unit always have reliable ground contact. Previously known steerable wheel units with two independently driven wheels have a centrally arranged pivot / swivel bearing. This embodiment has the disadvantage that only small transverse forces can be absorbed and the transverse forces that arise when cornering must be kept low by reducing the speed of travel in the curve or cornering entirely through straight-line travel sections in forward / backward movement, transverse movement 45 ° inclined movement and rotary movement of the transport device can only be replaced when the machine is not in operation. This disadvantage causes the transport processes to slow down or prevents them from being used for certain applications which require an exact travel movement along defined path curves.
    The object of the invention is to define a drive system with steerable wheel units, which allows exact positioning of the transport system and a uniformly high speed even when cornering on uneven ground and can reliably absorb high lateral forces.
    This is achieved according to the invention in that the wheel carrier is rotatably received in the interior of a guide ring forming the holder.
    This ensures that the wheel units are supported both in the vertical direction and in the horizontal direction in the direction of travel and transversely to the direction of travel with respect to the transport device and that the steerable wheel unit can be pivoted perpendicularly to the respective direction of travel to compensate for unevenness in the floor, so that both wheels of a wheel unit are always attached Uneven floors are in contact with the floor.
    The invention is explained in more detail below with reference to the figures. Show it:
    Figure 1 shows an inventive drive system (wheel unit) in plan view.
    2 shows the wheel unit in a view in the direction of travel;
    Fig. 3 shows the wheel unit obliquely from above and in section along the section line A-A of Fig. 1;
    4.29
    Figure 4 shows the wheel unit in an oblique view from below with the rotary and tilted bearing cut open;
    5 shows the wheel unit in the installed position in the direction of travel with the drive wheels inclined as a result of uneven ground with the pivoted and tilted bearing cut open;
    Fig. 6 transport device with four parallel aligned drive systems in a straight line
    7 Transport device with four drive systems aligned for rotation at the stand in a view from below;
    8 Transport device with four drive systems aligned for cornering in a view from below;
    9 Transport device with four drive units in an oblique view from below with additional navigation / security sensors;
    10 Transport device with four drive units in a view from below with additional navigation / security sensors and their detection areas;
    The drive system according to the invention consists of a guide ring 1, a wheel carrier 2 for the two separately driven drive wheels 3 and 3 ', with the common wheel axis 10, the drive motors 4 and 4' and the pivot bearing 5, which forms the pivot axis 6, the pivot bearing 7, which forms the axis of rotation 9, and the inner ring 8.
    The vertical forces are transmitted from the guide ring 1 via the rotary bearing 7 to the rotary / swivel ring, namely the inner ring 8, the swivel bearing 5 and further to the wheel carrier 2 and to the drive wheels 3 and 3 ', the drive wheels unhindered about the axis of rotation 9 in can align any direction of travel and can freely align around the pivot axis 6 to compensate for uneven floors. Horizontal forces that result from the forward movement of the transport device 11 and the transverse forces
    5.29
    Turning result, are taken up by the rotary swivel ring 8, the pivot bearing 7 and the guide ring 1.
    Through defined individual control of the rotational speeds of the drive wheels 3 and 3 ', the individual drive units are aligned with respect to their vertical axes 9, so that a transport system 11 carried out therewith is almost unlimited, i. H. can be maneuvered forward, backward, sideways, in any curve and on the stand, in the plane.
    Laser scanners 14 and 14 'are provided for navigation and for safe autonomous operation, which enable a 360 ° all-round view in the plane.
    The energy supply is preferably electrical, with accumulators corresponding to the state of the art being used for storing the electrical energy and which can also be charged at the same time during load operation. The charging process takes place without contact or by means of contacts.
    6.29
    权利要求:
    Claims (16)
    [1]
    1.Carriage for transport devices with a guide ring (1) and with a wheel carrier (2) which can be pivoted in the guide ring (1) about a substantially vertical main axis of rotation (9) and on which two wheels (3, 3) rotatable about a common axis of rotation (10) ') are arranged, characterized in that an inner ring (8) is pivotally mounted about the main axis of rotation (9) in the guide ring (1) via a pivot bearing (7) and that the wheel carrier (2) via at least one pivot bearing (5) by one Main axis of rotation (9) is pivotally mounted essentially vertically arranged pivot axis (6).
    [2]
    2. Running gear according to claim 1, characterized in that the two wheels (3, 3 ') can be driven independently of one another.
    [3]
    3. Running gear according to claim 2, characterized in that two drive motors (4, 4 ') are provided in the wheel carrier (2), each of which is connected to a wheel (3, 3'), preferably via a transmission.
    [4]
    4. Running gear according to one of claims 1 to 3, characterized in that the pivot bearing (7) is designed as a roller bearing.
    [5]
    5. Running gear according to one of claims 1 to 4, characterized in that the pivot axis (6) is arranged both perpendicular to the main axis of rotation (9) and to the common axis of rotation (10) of the wheels (3, 3 ').
    [6]
    6. Chassis according to one of claims 1 to 5, characterized in that the direction of travel determining the orientation of the wheels (3, 3 ') via the pivot bearing (7), whose axis of rotation (9) is aligned substantially perpendicular to the plane of the roadway and Level compensation angle 10 'is up to +/- 15 °, preferably +/- 5 °.
    [7]
    7.29
    Ί
    7. Running gear according to one of claims 1 to 6, characterized in that the pivot axis (6) and the axis of rotation (10) are preferably in a common plane which in the
    Condition of use runs parallel to the road level.
    [8]
    8. Transport device with at least one undercarriage, preferably with four undercarriages, according to one of claims 1 to 7, characterized in that an almost unrestricted maneuverability is possible, so that straight, or in any path curve forwards, backwards or sideways and on the stand rotating can.
    [9]
    9. Transport device according to claim 8, characterized in that when driving straight in the direction (12) the direction of travel (12 'to 12' ') of the trolleys is aligned in parallel.
    [10]
    10. Transport device according to claim 8 or 9, characterized in that for cornering in any direction (12) and driving speed, the current directions of travel (12 'to 12) of the trolleys to a vanishing point (13') derived from the trajectory of the desired trajectory Distance (13) from the center of motion of the transport device (11) by means of the axes of rotation (10 'to 10) by controlling the rotational speeds of the wheels (3, 3') and the cam track speed of the transport device is controlled by controlling the individual rotational speeds of the wheels.
    [11]
    11. Transport device according to claim 8 to 10, characterized in that for a rotation at the stand about the axis (13 ') with the rotational speed (12), the trolleys to the vanishing point (13') at a distance (13) from the center of rotation of the transport device ( 11) are aligned by means of the axes of rotation (10 'to 10) by controlling the rotational speeds of the wheels (3, 3') and the rotational speed of the transport device is controlled by controlling the individual rotational speeds of the wheels.
    8.29
    [12]
    12. Transport device according to one of claims 8 to 11, characterized in that for the navigation and for safe operation laser scanners are provided, preferably two laser scanners (14, 14 ') whose rotating laser beams (15, 15') overlap circular surface portions ( 16, 16 ') and thus enable a 360 ° all-round view in the plane.
    [13]
    13. Transport device according to one of claims 8 to 12, characterized in that the energy supply is carried out electrically and is stored onboard, the charging process being carried out without contact or by means of contacts.
    [14]
    14. Transport device according to one of claims 8 to 13, characterized in that it is equipped with devices for the automated conveyance, pick-up and delivery of transport goods, transport containers or pallets.
    [15]
    15. Transport device according to one of claims 8 to 14, characterized in that it with automated handling devices (z. B. gripping, supporting, holding and clamping devices), automated tools (z. B. for riveting, screwing, Welding, painting, grinding or polishing work), complex robot systems (e.g. articulated arm robots, snake arm), camera systems or other devices for performing tasks in particularly vulnerable or inaccessible areas (e.g. remote-controlled detection, salvage or Defusing potentially dangerous objects).
    [16]
    16. Transport device according to one of claims 1 to 15, characterized in that the guide ring (1) has a pivot bearing (7) receiving bore, but otherwise can have any geometric shapes.
    9.29
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    同族专利:
    公开号 | 公开日
    WO2018136987A1|2018-08-02|
    AT519463B1|2018-07-15|
    EP3573877A1|2019-12-04|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JPS62283072A|1986-05-31|1987-12-08|Shinichiro Yoshimura|All direction running vehicle|
    US7694758B1|2006-02-27|2010-04-13|Hammonds Technical Services, Inc.|People moving vehicle with reduced turn radius having omni-directional cab|WO2020247991A1|2019-06-08|2020-12-17|Amx Automation Technologies Gmbh|Omnidirectional wheel hub drive|
    DE102019132820A1|2019-12-03|2021-06-10|Schaeffler Technologies AG & Co. KG|Vehicle and drive platform therefor|
    DE202020101616U1|2020-03-25|2021-06-28|Speciaal Machinefabriek Ketels v.o.f.|Intrinsically safe modular drive technology for omnidirectional driving on the flat|DE102013019726A1|2013-11-27|2015-05-28|Sew-Eurodrive Gmbh & Co Kg|Vehicle, in particular AGV or FTS, with frame and at least one steering unit|
    DE202014000755U1|2014-01-30|2015-05-04|Hit Hafen- Und Industrietechnik Gmbh|Heavy-duty low-floor vehicle, and system with one or more of these vehicles|DE202018005272U1|2018-11-14|2020-02-20|isel GmbH & Co. KG|Steering device of a vehicle|
    JP2020200154A|2019-06-11|2020-12-17|三菱重工業株式会社|Unmanned carrier, control device, and program|
    DE202019003072U1|2019-07-24|2020-10-27|isel GmbH & Co. KG|Driving platform and modular driving unit|
    DE102019126390A1|2019-09-30|2021-04-01|Broetje-Automation Gmbh|Floor-bound vehicle|
    DE102021000839A1|2020-03-09|2021-09-09|Sew-Eurodrive Gmbh & Co Kg|Mobile transport system|
    WO2021180360A1|2020-03-09|2021-09-16|Sew-Eurodrive Gmbh & Co. Kg|Mobile transport system|
    DE102020002676B3|2020-05-05|2021-03-25|Sew-Eurodrive Gmbh & Co Kg|Mobile transport system|
    DE102020119276A1|2020-07-22|2022-01-27|A & A Logistik-Equipment GmbH & Co. KG|Support arm stacker, preferably as an AGV|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    AT600092017A|AT519463B1|2017-01-28|2017-01-28|LANDING GEAR|AT600092017A| AT519463B1|2017-01-28|2017-01-28|LANDING GEAR|
    PCT/AT2018/060024| WO2018136987A1|2017-01-28|2018-01-25|Running gear|
    EP18702402.1A| EP3573877A1|2017-01-28|2018-01-25|Running gear|
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