• 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 vehicle axle assembly (14) includes an axle (16) with opposite axial ends (18), a pair of axle hubs (20) and a pair of double hinges 22. Each double hinge (22) includes an inward arm (28), a outward arm (30), a first hinge pin (32) connecting one end of the inward arm (28) to one of the respective shaft ends (18), and a second hinge pin (34) connecting an opposite end of the inward arm (28) ) connects to the outward arm (30). The outward arm (30) is connected to a respective shaft hub (20). Each double hinge (22) further includes a mechanical stop (36) that limits rotation of the inward arm (28) around the first hinge pin (32) in a direction toward the respective shaft end (18), the outward arm (30) can pivot about the second hinge pin (34) when the inward arm (28) contacts the mechanical stop (36).
    公开号:BE1021160B1
    申请号:E2013/0534
    申请日:2013-08-08
    公开日:2018-08-02
    发明作者:Sam Reubens;Jean-Pierre Vandendriessche;Carlos J.A. Verheye
    申请人:Cnh Industrial Belgium Nv;Cnh Belgium N.V.;
    IPC主号:
    专利说明:

    (30) Priority data:
    (73) Holder (s):
    CNH INDUSTRIAL BELGIUM NV
    8210, ZEDELGEM
    Belgium (72) Inventor (s):
    REUBENS Sam 8300 KNOKKE-HEIST Belgium
    VANDENDRIESSCHE Jean-Pierre
    9420 ERPE-MERE
    Belgium
    VERHEYE Carlos J.A.
    8800 ROULERS Belgium (54) AXLE ASSEMBLY FOR A VEHICLE WITH STEERING HINGE STEERING.
    (57) A vehicle axle assembly (14) includes an axle (16) with opposite axial ends (18), a pair of axle hubs (20) and a pair of double Hinges 22. Each double Hinge (22) includes an inward arm (28 ), an outward arm (30), a first hinge pin (32) connecting one end of the inward arm (28) to one of the respective shaft ends (18), and a second hinge pin (34) connecting an opposite end of the inward arm (28) connects to the outward arm (30). The outward arm (30) is Verbünden with a respective axle hub (20). Each double Hinge (22) further includes a mechanical stop (36) that restricts rotation of the inward arm (28) around the first hinge pin (32) in a direction toward the respective shaft end (18), the outward arm (30) the second hinge pin (34) can rotate when the inward arm (28) makes contact with the mechanical stop (36).

    FIG. 6B
    BELGIAN INVENTION PATENT
    FPS Economy, K.M.O., Self-employed & Energy
    Intellectual Property Office
    Publication number: 1021160 Filing number: 2013/0534
    International classification: B62D 7/18 Date of issue: 02/08/2018
    The Minister of Economy,
    Having regard to the Paris Convention of 20 March 1883 for the Protection of Industrial Property;
    Having regard to the Law of March 28, 1984 on inventive patents, Article 22, for patent applications filed before September 22, 2014;
    Having regard to Title 1 Invention Patents of Book XI of the Economic Law Code, Article XI.24, for patent applications filed from September 22, 2014;
    Having regard to the Royal Decree of 2 December 1986 on the filing, granting and maintenance of inventive patents, Article 28;
    Having regard to the application for an invention patent received by the Intellectual Property Office on 08/08/2013.
    Whereas for patent applications that fall within the scope of Title 1, Book XI, of the Code of Economic Law (hereinafter WER), in accordance with Article XI.19, § 4, second paragraph, of the WER, the granted patent will be limited. to the patent claims for which the novelty search report was prepared, when the patent application is the subject of a novelty search report indicating a lack of unity of invention as referred to in paragraph 1, and when the applicant does not limit his filing and does not file a divisional application in accordance with the search report.
    Decision:
    Article 1
    CNH INDUSTRIAL BELGIUM NV, Leon Claeysstraat 3A, 8210 ZEDELGEM Belgium;
    represented by
    BEETZ Joeri, Leon Claeysstraat 3A, 8210, ZEDELGEM;
    a Belgian invention patent with a term of 20 years, subject to payment of the annual taxes as referred to in Article XI.48, § 1 of the Code of Economic Law, for: AXLE ASSEMBLY FOR A VEHICLE WITH STEERING HINGE STEERING.
    INVENTOR (S):
    REUBENS Sam, Primrose, 16, 8300, KNOKKE-HEIST;
    VANDENDRIESSCHE Jean-Pierre, Koutergatstraat 20, 9420, ERPE-MERE;
    VERHEYE Carlos J.A., Groenestraat 479, 8800, ROESELARE;
    PRIORITY:
    BREAKDOWN:
    Split from basic application: Filing date of the basic application:
    Article 2. - This patent is granted without prior investigation into the patentability of the invention, without warranty of the Merit of the invention, nor of the accuracy of its description and at the risk of the applicant (s).
    Brussels, 02/08/2018,
    With special authorization:
    BE 2013/0534
    2013/0534
    AXLE ASSEMBLY FOR A VEHICLE WITH DOUBLE STEERING GEAR
    HINGE
    This invention relates to axle assemblies for vehicles, in particular to steering devices of such axle assemblies.
    Work vehicles that contact the ground such as combine harvesters usually include a pair of axle assemblies, each axle assembly usually consisting of an axle, a pair of axle hubs at the respective longitudinal ends of the axle, and a pair of tires mounted on the axle hubs respectively For steered wheels the hubs can be turned with respect to an arm pin so that the wheels are turned to a desired steering angle. Usually both wheels are steered with a power actuator such as a hydraulic cylinder, and the wheels are interconnected by a tie rod.
    For agricultural vehicles, there is a tendency for the vehicle to get bigger and bigger so that the vehicle can pull or deliver power to larger and heavier associated equipment or implements. In the case of a combine, the size of the mower or cutting platform fitted to the front of the combine tends to increase over time, increasing power requirements. The grain storage capacity also increases along with the higher threshing capacity resulting in higher steering axle weights. In addition, it is increasingly common to tow other agricultural implements behind the combine, such as biomass harvesters or associated storage carts or carts.
    With large combines it may also be necessary or desirable to equip the combine with larger drive wheels and steered wheels. Such wheels provide a larger surface area in contact with the ground, which in turn results in better traction, less compaction of the soil, lower rolling resistance on wet soil, etc. In the case of steered wheels, the use of larger wheels can also result in a smaller turning angle, since larger wheels can contact and possibly collide with or damage the vehicle structure, such as parts of the frame, metal side plates or houses, etc. A smaller turning angle causes a larger turning radius for the vehicle, which not desirable
    BE 2013/0534 z 2013/0534. In addition, road traffic regulations in Europe are increasingly restricting vehicle profiles to remain within certain limits (3.5 m for the width and 4 m for the height) to be allowed to drive without escorted safety vehicles.
    What is required in the prior art is a large vehicle steering device, such as a combine, which allows the use of large tires and at the same time maintains a small turning radius for the vehicle.
    This invention provides a vehicle axle assembly in which a double hinge connects the axle to an axle hub. The Double Hinge has an inward arm that pivots around a first pivot shaft, and an outward arm that pivots around a second pivot shaft, restricting the rotation of each pivot shaft so as to achieve a greater angle of rotation without colliding with the neighboring structure.
    In one form, the invention is directed to a vehicle axle assembly comprising an axle with opposite axial ends, a pair of axle hubs and a pair of double hinges. Each double hinge includes an inward arm, an outward arm, a first hinge pin connecting one end of the inward arm to a respective shaft end, and a second hinge pin connecting an opposite end of the inward arm to the outer arm. The outward arm is connected to a respective axle hub. Each double hinge further includes a mechanical stop that restricts rotation of the inward arm about the first hinge pin in a direction toward the respective shaft end, whereby the outward arm can rotate around the second hinge pin when the inward arm hits the mechanical stop.
    The foregoing and other features and advantages of this invention and the means of achieving them will become more apparent and the invention will be better understood by reference to the following description of embodiments of the invention together with the accompanying drawings, wherein:
    BE 2013/0534
    2013/0534
    Figure 1 is a schematic plan view of a combine-harvester vehicle containing an embodiment of an axle assembly of the present invention;
    Figure 2 is a top view of the steering device connected to the left wheel shown in Figure 1, with the wheel in the position where the steering angle is zero (0) degrees;
    Figure 3 is a top view of the steering device shown in Figure 2 with the wheel turned forward;
    Figure 4 is a top view of the steering device shown in Figures 2 and 3 with the wheel turned backward;
    Figures 5A and 5B are schematic plan views of the left and right sides of the steering wheel when turning with a small steering angle, with the wheels turned to the right in Figure 5B;
    Figures 6A and 6B are schematic plan views of the left and right sides of the steering wheel when turning with a large steering angle, with the wheels turned to the right in Figure 6B;
    Figures 7A and 7B are schematic views showing a pawl lock for locking the inward arm and the outward arm together;
    Figures 8A and 8B are schematic views showing a pawl lock for locking the inward arm and shaft end together;
    Figure 9 is a schematic view showing a locking by means of display a liquid cylinder for locking the inward arm, the outward arm and the shaft end relative to each other;
    Figure 10 illustrates an axle assembly with an embodiment of a steering device according to the present invention;
    Figure 11 illustrates an axle assembly with another embodiment of a steering device according to the present invention;
    Figure 12 illustrates an axle assembly with yet another embodiment of a steering device according to the present invention;
    Figure 13 illustrates an axle assembly with yet another embodiment of
    BE 2013/0534
    2013/0534 a steering device according to this invention;
    Figure 14 illustrates an axle assembly with yet another embodiment of a steering device according to this invention, wherein the axle assembly is in a retracted state; and
    Figure 15 illustrates the axle assembly and the steering device of Figure 14, with the axle assembly in an extended position.
    Corresponding references (numbers and letters) indicate corresponding parts throughout all different views. The examples set forth herein illustrate embodiments of the invention and such examples should not be construed as limiting the scope of the invention in any way.
    With reference to the drawings, and more particularly to Figure 1, a vehicle 10 is shown which includes a main body 12 carrying an axle assembly 14. The main body 12 may include a chassis with parts of a frame containing metal sheet parts or other housing parts (not shown). In the illustrated embodiment, the vehicle 10 is in the form of a combine harvester; it is understood, however, that the vehicle 10 may be a different type of vehicle.
    The shaft assembly 14 is a steerable shaft assembly and includes a shaft 16 with opposite axial ends 18, a pair of shaft hubs 20, and a pair of double Hinges 22, each double Hinge 22 connecting a shaft hub 20 and a respective shaft end 18. Each double hinge 22 forms part of a steering device 24 according to the present invention to selectively steer the wheels 26. Each shaft end 18, the pair of shaft hubs 20 and the pair of double Hinges 22 are believed to be essentially identically configured and therefore it is to be understood that the detailed description below applies to both the left and right ends of shaft assembly 14.
    With reference to Figures 2-4, the steering device 24 connected to the left wheel shown in Figure 1 will now be described in more detail. Figure 2 shows left wheel in the position where steering angle is zero (0) degrees, Figure 3
    BE 2013/0534
    2013/0534 shows the left hand wheel turned forward and Figure 4 shows the left hand wheel turned backward. The Double Hinge 22 includes an inward arm 28 and an outward arm 30. A first hinge pin 32 connects one end of the inward arm 28 to the shaft end 18. A second hinge pin 34 is positioned rearwardly of the first hinge pin 32 and connects an opposite end of the inward arm 28 with the outward arm 30. The first hinge pin 32 and the second hinge pin 34 are generally vertically oriented and can be configured with any desired arm slope (KPI) and caster angle. The outward arm 30 is connected to the shaft hub 20.
    According to an aspect of the present invention, the Double Hinge 22 includes a mechanical stop 36 that restricts rotation of the inward arm 28 about the first hinge pin 32 in a direction toward the shaft end 18. When the inward arm 28 abuts the mechanical stop 36, then rotate the outward arm 30 about the second hinge pin 34. In the embodiment illustrated in Figures 2-4, the mechanical stop 36 is in the form of a stop face connected to shaft end 18. When the inward side of the inward arm 28 abuts the stop face 36, the outward arm 30 then rotate around the second hinge pin 34 (see Figure 4).
    It is easy to see that the specific configuration and location of the stop face 36 may vary from application to application. In the embodiment shown in Figures 2-4, the stop face 36 is a simple flat surface positioned at a desired angle at the end of the shaft 18. However, the stop face 36 could have a shape that is not flat, may placed at different angles of orientation may abut a projection or recess formed as part of the inward arm 28, etc. The primary idea is that a mechanical stop is provided to adjust the degree of rotation of the inward arm 28 about the limit first hinge pin 32 when the wheel is hinged in a backward direction.
    According to another aspect of the present invention, the double Hinge 22 pivots about the front or first pivot pin 32 for small steering angles, and pivots
    BE 2013/0534 θ 2013/0534 for large steering angles around the rear or second hinge pin 34. With reference to Figures 5A and 5B, schematic plan views are shown of a steering device 24 for both the left and right double Hinge 22 during a small rotation of the steering angle, with the wheels turned to the right. Both the left and right axle hubs 20 Hinges around the front or first hinge pin 32. In Figure 5B, the right inward arm 28 is shown in contact with the stop face 36, ie the maximum steering angle at which the right double Hinge 22 around the front or first hinge pin 32 hinges.
    More specifically, the first hinge pin 32 defines a first hinge axis 38 and the second pin 34 defines a second hinge axis 40. The stop face 36 is disposed relative to a steering angle (hereinafter referred to as the stop angle (0)) between a transverse axis 42 which is perpendicular with respect to a longitudinal axis 44 of the shaft 16, and a line 46 extending between the first pivot shaft 38 and the second pivot shaft 40. When the inward side of the inward arm 28 contacts the stop face 36, a further pivoting movement of Double Hinge 22 around the first hinge axis 38 and then pivot the outward arm 30 about the second hinge axis 40.
    With reference to Figures 6A and 6B, schematic plan views are shown of a steering device 24 for both the left and right double Hinge 22 during a large steering angle change, with the wheels turned to the right in Figure 6B. When turning to the right, the left wheel pivots around the front or first pivot pin 32, as shown on the left of Figure 6B. In contrast, at greater steering angles after the inward side of inward arm 28 contacts the abutment face 36, the further rotation of the axle hub 20 thereafter occurs by the rotation of the outward arm 30 about the second hinge pin 34, as shown on the right of figure 6B. In the illustrated embodiment, the stop angle (0) in which contact with the mechanical stop 36 is between about 0 ° and 20 °, preferably between about 5 and 15 °, and even more preferably about about 10 °.
    The double hinges 22 in the control device 24 preferably use locks so that the multiple degrees of freedom can be controlled. Per
    BE 2013/0534
    2013/0534 double Hinge 22, two locks can be used to fully define the steering gear 24 and create a stable steering system.
    Figures 7A and 7B illustrate a pawl lock 48 used to lock the inward arm 28 relative to the outward arm 30.
    When the axle hub 20 and the wheel 26 pivot around the front pivot shaft 38, the inward arm 28 and the outward arm 30 remain fixed to each other by locking the second hinge pin 34. As shown in Figures 7A and 7B, and with reference to Figures 2-4, shaft end 18 includes an outward protrusion 50 with a downwardly extending pin 52. The outward arm 30 includes an arcuate upright wall 54 having a radius of curvature parallel to the outer diameter of the first hinge pin 32. When the wheel 26 is rotated in a forward direction, as shown in Figures 3 and 7B, the static pin 52 is positioned behind the upright wall 54 which slides along the pin 52 about the outward arm 30 in a folded and locked position relative to the inward arm 28. When the wheel 26 is at a steering angle of 0 ° as shown in Figure 2, the pin 52 is located near the front of the upright wall 54. When the wheel 26 is turned to the rear of the axle as shown in Figures 4, the pin 52 is no longer behind the upright wall 54, and the outward arm 30 can pivot around the second hinge pin 34 after the inward arm 28 contacts the stop face 36.
    Figures 8A and 8B illustrate a pawl lock 56 which locks the inward arm 28 relative to a respective shaft end 18. When rotated backward, the inward arm 28 can be locked on the shaft end 18, which in turn locks the first hinge pin 32. The shaft end 18 may include a pin 58 that is selectively extended and retracted by a suitable actuator, such as a mechanical, hydraulic or electric actuator.
    When the inward arm 28 rests against the stop face 36, the pin 58 is extended into a hole 60 in the inward arm 28.
    Figure 9 illustrates an arrangement with a locking by means of a liquid cylinder 62 which locks the inward arm 28 relative to the shaft 16 and / or the outward arm 30. A front steering cylinder 64 connects the
    BE 2013/0534
    2013/0534 inward arm 28 and the outward arm 30 together, and a rear steering cylinder 66 connects the shaft 16 and the inward arm 28 together (via the rear hinge pin 34). To block rotation about the front or first hinge pin 32, the large or rear steering cylinders 66 can be locked with the hydraulic plunger in a desired position to prevent rotation around the first hinge pin 32. To block rotation about the second hinge pin 34, the smallest or front steering cylinder 64 can be locked with the hydraulic plunger in a desired position to prevent rotation about the second hinge pin 34. The rear steering cylinder 66 also defines a mechanical stop when the plunger is locked at a selected length to cause rotation of the outward arm 30 about the second hinge pin 34.
    With the arrangement 62 of the locking by means of a fluid cylinder shown in Figure 9, it may be possible to change the position of the mechanical stop defined by the rear steering cylinder 66. The position of the stop or lock of the rear steering cylinder 66 also corresponds to the stop angle at which the inward arm 28 locks and the rest of rotation proceeds around the rear or second hinge pin 34. Due to the position of the stop or lock of the rear steering cylinder 66 (ie, the location where the rear steering cylinder 66 will not retract further) may change the position of the mechanical stop and the corresponding stop angle.
    In addition, by using a liquid cylinder to define the mechanical stop, it is possible to have a moving mechanical stop that nevertheless defines the position at which the rotation around the rear or second hinge pin 34 begins to occur. As the inward arm 28 rotates about the first hinge pin 32, the speed at which the plunger is retracted and retracted into the rear steering cylinder 66 may vary by a controller. The rear steering cylinder 66 can be placed under a stop angle (Θ) according to the mechanical stop, after which rotation around the rear or second hinge pin 34 occurs. When the rotation around the second hinge pin 34 begins to occur, the rear steering cylinder 66 can be retracted at a slow or slower speed allowing the mechanical stop to move during operation, while the next rotation is still around the
    BE 2013/0534 y 2013/0534 second hinge pin 34 can expire. In that case, the rotation about the second hinge pin 34 is not exclusive, since the rotation may also occur around the front or first hinge pin 32 when the rear steering cylinder is slowly retracted. Thus, unlike other embodiments where the rotation occurs exclusively or only when contacting the mechanical stop, it is also possible to have a non-exclusive rotation about the second hinge pin 34 when contacting the mechanical stop.
    Figures 10-13 illustrate embodiments of various control devices that can be used in this invention. Figure 10 is a schematic view of a steering device 70 configured with two steering cylinders 72 and a track rod 74. The steering cylinders 72 are rear steering cylinders, preferably two-way cylinders, mounted between the axle 16 and a respective inward arm 28. Assuming that the rear steered wheel rotates to the left, the left-hand steering cylinder 72 extends while the right-hand steering cylinder 72 clamps the inward arm 28 and locks against the stop face 36 of the shaft end 18. A locking device, such as the pawl lock 48 shown in Figure 7 , the outward arm 30 fixes relative to the inward arm 28 as the left wheel 26 rotates in a forward direction. The steering movement of the left wheel 26 is transmitted to the right wheel 26 by the sliding track rod 74. To turn the wheels 26 back into a straight-ahead position (i.e., 0 ° steering angle), the left-hand steering cylinder 72 retracts while the right-hand steering cylinder 72 continues clamping. The totals steering force for both wheels 26 is thus generated by means of one rear steering cylinder 72.
    Figure 11 is a schematic view of a steering device 80 configured with three steering cylinders 82 and 84, and a track rod 86. The steering cylinders 82 are rear steering cylinders disposed between the shaft 16 and a respective inward arm 28. The steering cylinder 84 is a front steering cylinder located approximately in the longitudinal center of the axle 16. The steering cylinder 84 is a two-way cylinder with a sliding piston rod protruding from each end of the cylinder forming part of the rod 86.
    Figure 12 is a schematic view of a control device 90 which
    BE 2013/0534
    2013/0534 is configured with four steering cylinders 92 and 94, and a track rod 96. The two steering cylinders 92 are rear steering cylinders mounted between the axle 16 and a respective inward arm 28. The two steering cylinders 94 are front steering cylinders mounted between a inward arm 28 and a respective outward arm 30. With steering device 90, steering is accomplished by extending two diagonally disposed cylinders (one large or rear steering cylinder 92 and one small or front steering cylinder 94 at opposite ends of axle 16), while the other two cylinders act as clamping devices.
    The track rod 96 provides the mechanical connection between both wheel ends.
    Figure 13 is a schematic view of a steering gear 100 configured with four steering cylinders 102 and 104. Steering gear 100 is similar to steering gear 90 shown in Figure 12, but does not include a tie rod.
    The two steering cylinders 102 are rear steering cylinders mounted between the axle 16 and a respective inward arm 28. The two steering cylinders 104 are front steering cylinders located between an inward arm 28 and a respective outward arm 30. The tie rod has been replaced by an electronic control system that measures the steering angles and controls the movement of the four cylinders 102 and 104, and achieves the optimum steering angle for each wheel 26.
    Figures 14 and 15 illustrate the steering device 100 shown in Figure 13 when used for the additional functionality of an extendable and retractable axle assembly that provides an adjustable track width. When driving in a transport mode, such as on a public road, the axle is used in a retracted position with the wheels within a legal track gauge (Figure 14). However, when driving on a field, the inward arm 28 can be pushed out to increase the track width to improve the stability of the vehicle (Figure 15).
    The large or rear steering cylinders 102 are then used only to push the wheels outward and lock the inward arm 28 into the extended position. The wheels 26 now rotate only about the outermost pivot axes (i.e. around second pivot pins 34) so that the axle 16 functions as a traditional steering bridge. Steering forces are only generated by the two smaller or front steering cylinders 104.
    BE 2013/0534
    1 1 2013/0534
    Although this invention has been described with respect to at least one embodiment, it can be further modified within the spirit and scope of this disclosure. Therefore, this patent application is intended to cover any variations, uses or modifications of the invention by using its general principles. Furthermore, this patent application is intended to cover such deviations from this disclosure which are possible within known or conventional prior art practices to which this invention pertains and which are within the limits of the appended claims.
    BE 2013/0534
    2013/0534
    权利要求:
    Claims (15)
    [1]
    CONCLUSIONS
    A vehicle axle assembly (14) that includes: an axle (16) with opposite axial ends (18);
    a pair of hubs; and
    5 a pair of double Hinges (22), each double Hinge (22) having an inward arm (28), an outward arm (30), a first hinge pin (32) connecting one end of the inward arm (28) to one of the respective shaft ends (18), and a second hinge pin (34) connecting a second hinge pin connecting an opposite end of the inward arm (28) to the
    10 outward arm (30), the outward arm (30) being connected to a respective axle hub (20), characterized in that:
    each double Hinge (22) further includes a mechanical stop (36) that restricts rotation of the inward arm (28) around the first hinge pin (32) in a direction toward the respective shaft end (18), the outward arm (30) around the
    The second hinge pin (34) can rotate when the inward arm (28) hits the mechanical stop (36).
    [2]
    Axle assembly (14) according to claim 1, characterized in that the mechanical stop (36) contains one of the following elements:
    20 a stop face (36) connected to a respective shaft end (18); and a liquid cylinder (66, 72, 82, 92, 102) connected between the shaft (16) and the inward arm (28).
    [3]
    Axle assembly (14) according to claim 1, characterized in that the first hinge pin (32) defines a first hinge axis (38) and the second hinge pin (34) defines a second hinge axis (40), and wherein the mechanical stop (36 ) is located under a stop angle (Θ) between a transverse axis (42) perpendicular to a longitudinal axis (44) of the axis (16) and a line (46) extending between the first pivot axis (38) and the second pivot shaft (40).
    BE 2013/0534
    2013/0534
    [4]
    Axle assembly (14) according to claim 3, characterized in that the stop angle (Θ) is between about 0 ° and 20 °, preferably between about 5 ° and 15 °, and even more preferably around about 10 °.
    [5]
    Axle assembly (14) according to claim 1, characterized in that the double Hinge (22) further comprises at least one latch (48, 56, 62), each latch (48, 56, 62) being configured around the inward arm ( 28) lockable to the shaft (16) often to the outward arm
    10 (30).
    [6]
    Axle assembly (14) according to claim 5, characterized in that at least one lock (48) includes a pawl lock arrangement (48) which locks the inward arm (28) and the outward arm (30) to each other
    [7]
    Axle assembly (14) according to claim 5, characterized in that at least one lock (56) includes a pawl lock arrangement (56) which locks the inward arm (28) and a respective shaft end (18) relative to each other.
    20
    [8]
    Axle assembly (14) according to claim 5, characterized in that at least one lock (62) includes a liquid cylinder locking arrangement (62) which holds the inward arm (28) relative to the shaft (16) or the outward arm (30). ) locks.
    25
    [9]
    The axle assembly (14) of claim 1, further comprising at least one steering cylinder (64, 66, 72, 82, 84, 92, 94, 102, 104), each steering cylinder (64, 66, 72, 82,
    84, 92, 94, 102, 104) is disposed between the inward arm (28) and the shaft (16) or the outward arm (30).
    BE 2013/0534
    2013/0534
    [10]
    Axle assembly (14) according to claim 9, characterized in that the at least one steering cylinder (66, 72, 82, 92, 102) has a pair of rear steering cylinders (66, 72, 82, 92,
    102) disposed between the shaft (16) and a respective inward arm (28).
    [11]
    The axle assembly (14) of claim 10, further comprising a track rod (74, 86,
    96) which extends between the outward arms (30).
    [12]
    Axle assembly (14) according to claim 11, characterized in that the at least one steering cylinder (84) includes a front steering cylinder (84) connected to the track rod (86).
    [13]
    Axle assembly (14) according to claim 11, characterized in that the at least one steering cylinder (94, 104) includes a pair of front steering cylinders (94, 104)
    15 are arranged between the inward arm (28) and a respective outward arm (30).
    [14]
    The axle assembly (14) of claim 1, further comprising a pair of front steering cylinders (94, 104) disposed between the inward arm (28) and
    20 a respective outward arm (30), and a pair of rear steering cylinders (92, 102) disposed between the axle (16) and a respective inward arm (28).
    [15]
    Axle assembly (14) according to claim 14, characterized in that the pair of front steering cylinders (104) and the pair of rear steering cylinders (102) are configured
    25 are to be selective:
    steer the axle hubs (20) in the narrow track position; extend the axle hubs (20) to an extended track width; steer the axle hubs (20) in the extended track width position; or
    BE 2013/0534
    15 2013/0534 retract the axle hubs (20) from the extended track width to the small track width.
    BE 2013/0534
    2013/0534
    BE 2013/0534
    2013/0534
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    同族专利:
    公开号 | 公开日
    US20160144891A1|2016-05-26|
    EP3016832A1|2016-05-11|
    EP3016832B1|2017-09-06|
    US9555830B2|2017-01-31|
    WO2015000892A1|2015-01-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    法律状态:
    2018-10-17| FG| Patent granted|Effective date: 20180802 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP13174802|2013-07-02|
    EP13174802|2013-07-02|
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