• 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 devices for the construction of a railway track. The purpose of the invention is to improve serviceability. The installation consists of a device for transferring rail and rail grids and auxiliary cars. The transfer device includes a frame supported on the undercarriage, carrying rail grippers and telescopic supports for engagement with the base of the railway track. The supports are mounted at a quarter of its length from the ends of the frame. The auxiliary car consists of a platform resting on the undercarriage with flange wheels and tracked undercarriage. Tracked undercarriage pivotally connected to the platform by means of swivel frames and placed between the undercarriage with flange wheels. 6 hp ff, 7 ill.
    公开号:SU1537145A3
    申请号:SU874202404
    申请日:1987-04-17
    公开日:1990-01-15
    发明作者:Тойрер Йозеф;Бруннингер Манфред
    申请人:Франц Плассер Банбаумашинен Индустригезельшафт Мбх (Фирма);
    IPC主号:
    专利说明:

    The invention relates to devices for the construction of a railway track.
    The purpose of the invention is to improve serviceability.
    FIG. 1 shows the device, a general view; in fig. 2 - the same plan view; in fig. 3 shows section A-A in FIG. one; in fig. 4 - section bb FIG. 2: in FIG. 5 shows a section bb of FIG. four; in fig. 6 - permit GGD figure 2; in fig. 7- section DD-D. 6
    Installation for removal or laying, as well as transportation of rail links 3 formed from rails 1 and sleepers 2 consists of a device 4 for transporting the latter and an auxiliary car 5. At each end of frame 6 there are two opposite supports 7 opposite to each other in the transverse direction. a pair of lifting supports 7 for the purpose of their location far from each other along the longitudinal direction of the track to obtain high stability is installed approximately in the middle of each half of the length of the supporting frame, each lift stand 7 is connected to its own hydraulically actuated transverse displacement piston 8 with the possibility of independent transverse displacement. Between both pairs of lifting columns located at a distance from each other and at each end of the length of the supporting frame 6
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    rail fasteners 9 are associated with it, which are made in each case with the possibility of independent shifts across from one another to the longitudinal direction. The transverse adjustment of the rail grippers 9 occurs along the guides 10 extending transversely to the longitudinal direction of the supporting frame. The latter consist of the middle part 11 installed symmetrically to the supporting frame 6 and attached to the ends of the middle part 11 of the lateral parts 12, which can be rotated around the vertical axis. The middle part 11 of each guide 10 for providing a height adjustment by means of an actuator 13 is connected to a supporting frame 6. Between the drives 13 each middle part 11 of the guide 10 is connected to a guide body 14 having the shape of a rectangular parallelepiped A central line is provided between the two pairs of lifting posts. energy supply of various drives of the rail link carrier.
    The auxiliary carriage 5, which is able to move independently of the rail link unit, is made with a flat platform 15 for loading the rail link along with the unit for transferring the rail links. From the ends, the auxiliary car 5 has running carts 16 with flange wheels and gooseneck traveling carts 17. Each hog carriage 16 has wheels 18 with flanges and a drive 19. The crawler running carts 17 are equipped with a running drive 20, are connected to the platform by a rotary drive 21 frames 22 The pivoting frame 22 can be lifted up into the corresponding recess 23 in the platform and secured therein by means of a locking device 24.
    The platform 15 of the auxiliary car 5 is adapted to shift transversely to the longitudinal direction of the pen relative to the undercarriage 18 along the guide 25 by the drive 26.
    For the simultaneous transportation of long switches, one after the other, two devices 4 for transfer with a length and length of a small frame 6 and two auxiliary cars 5, one after the other, are installed. Approximately middle on
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    The underside of the platform 15 is provided with a power supply center 27 for supplying power to the drives located on the auxiliary cars 5. At the end of the auxiliary car 5 there is a height-adjustable forklift 28. Each transversely displaced piston 8 is made in the form of the form of a tetrahedral guide tube 29, in which the telescope is a sec I g Ha 30 s, and the drive 31 of the Osh-s-s is movable. The end of the telescopic outer tube 30 is connected to a lifting stand 7, respectively aligned with a four-sided guide tube 32. The four-sided telescopic outer tube 33 also relies on bearings in this tube and can be moved in the vertical direction with the help of the guide tube 32 attached to the end of the guide tube 32. At the free ends of the telescopic external pipes 33 of the lifting stand 7, a base plate 35 dp is provided resting on the gravel base. Rail grippers 9 for gripping the rail 1 of the rail link 3 are installed in pairs on the rail 10 and can be moved along its longitudinal direction. On the upper side of each rail 10, a certain number of locking pins 36 are provided to secure the carrier link 37 on both longitudinal sides of the rail connected to the rail grip. The running carriage 16 is supported on both sides through the support 38 on the lower side of the platform 16. In the middle, a guide pin 39 is provided, which moves in the transverse direction 25 passing across and is connected to the transverse permutation drive 26. Since its piston rod is connected to the platform 16, when actuating the actuator 26, the platform 16 moves across the relative chassis carriage 16, while the support 38 provides a reliable support platform. The guide 10 relative to the guide housing 14 can be rotated around the vertical axis 40. For this, the middle part 11 of the forward guide is connected to a circle-shaped support 41, which in
    thirty
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    the turn from the end is encompassed by the mating part 42 of the subunit connected to the guide housing 14. A transverse holder 43 is connected to this mating part 42 and the guide housing 14, to which the piston rods of the actuator 13 of the transposition 13 are pivotally connected. The latter, in the opposite end region, are connected to holders 44 fixed on the supporting frame 6. The guide casing 14 can be moved in height in the recess 45 of the platform 6. Rail grips 9 consist of two pieces of tongs by means of a spring held under prestressing, which the ends of the end are connected via a short chain to the carrier link 37. From the end side, grips handles 46 are also provided, by means of which both parts of the tongs against the spring resistance can be diluted so that the grippers olovk enter the rail under the rail head. The middle part 11 and the side part 12 of the guide 10 are connected between the hinge 47, as a result of which the side part 12 in the horizontal plane can move relative to the center of the part 11. To fix the side part in the desired position relative to the middle part 11 to the upper horizontal shelf of the guide bolt 48 is inserted.
    The carrier link 37 spans the upper horizontal flange of the guide 10 so that the carrier link can be rearranged to a height of the fixing pin 36 in height, thus the carrier link 37 can be shifted to the desired position transversely to the rail 10 along with the grippers of the rail head. As soon as the desired position is reached, the carrier link 37 is lowered onto the guide 10 between the locking spikes 36 bordering on them.
    The installation consisting of two devices 4 for transferring rail links and two auxiliary cars 5 moves with the help of undercarriage carriages 16 to the rail link 3 to be removed and transported. The device 4 with its lifting struts 7 lies on the platform 15 of the auxiliary car 5 and is connected to it shown dashed line cable
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    49. As soon as the unit is positioned exactly above the rail link to be removed 3, the cables 49 are removed and the supporting frame 6 is raised by lowering the guide platform 15. Then, the lifting posts 7 by activating the actuator 8 can be installed laterally adjacent to the turnbuckle and lowered onto the gravel base. After resting the lifting stand 7 on the gravel base, the entire device 4 is lifted from the auxiliary car. Following this, both auxiliary cars 5 drive off on the adjacent laid rail track. This is preferably carried out by a maintenance worker 50, standing sideways next to the rail by means of a remote controller 51, which can perform the appropriate control functions. Following this, the telescopic outer tubes 33 of the lifting stand 7 are pushed in and this all device 4 lowers to the rail link. The last precise lowering of the rail head envelope by means of gripping the rail head is done by actuating the shifting actuator 13. While they are lowered, the guide body 14 together with the guide 10 moves to the rail link 3. Once the grippers for gripping the rail head are precisely mounted over the respective rails of the rail link 3 and connected to the rail head, the rail link is raised, at the same time, the telescopic outer tubes 33 of the lifting columns are again extended. As soon as the distance between the lower edge of the rail link and the gravel base becomes slightly larger than the height of the auxiliary car 5, this movement stops. Then, the auxiliary cars 5 are driven to the freed gravel base by the lowered track-type undercarriage 17. To do this, a small ramp is laid out using old sleepers to bridge the difference in heights between the rail track and the lower gravel base. A forklift 28 is provided for transporting these sleepers. Upon reaching the stipulated position of the auxiliary car 5, exactly under the device 4, the latter along with the sub10
    the fifth rail link 3 is lowered onto the load platform 15, while the telescopic outer tubes 33 of the lifting column 7 move. The device 4, after lowering and retracting the lifting columns 7, lies on the guide 10 on the rails 1 of the rail link 3 and is fastened with cables 49 to the auxiliary car 5. Then it can be immediately transported in one or the other direction of the track, while drives of 20 tracked undercarriages 17 are driven; g
    Upon reaching the ramp of the sleepers of the front choir, the trolley 16 is placed on rails and, connected to them, the crawler carriage 17 is rotated upwards by driving-in action-1. The effect of the rotary actuator 21. This shift process is repeated with all other traveling trolleys. If now, due to the strongly protruding toward the section of the switch rail link 25, an obstacle to the contact network support or the like, which is next to the rail track, is created, then the transverse rearrangement drive 26 shortly before this. This action takes place in such a way that the frame of the platform 15 together with the rail link 3 and the device 4 is shifted across from the obstacle mentioned. After passing by obstacles, platform 15 can be returned to its former position. Driving during driving is preferably carried out by a service worker on device 4. When raising or lowering a rail link, it is expedient to remotely control the drives using a remote control device.
    Following this, the installation of a new switch is carried out in reverse order. For very long and with the use of concrete sleepers, very heavy switches it is possible to use three or four auxiliary cars 5 and devices 4 together. For shorter switches, an installation composed of only one auxiliary car 5 and one device can be used. 4. A further advantage also lies in the fact that, depending on
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    These circumstances may be independent application of each other, devices 4 and auxiliary cars 5. Thus, for example, devices 4 may remain i.a place of the installation site and be used only for lifting and loading rails or for unloading and lowering the rail link. The auxiliary car 5 then transports the rail link 3 without the device 4 to a longer distance to the designated pier where the rail link 3 can be lifted by prepared special cranes or other devices 4. Following this, the auxiliary cars b loaded with the new rail link , approaching the standing devices 4 back. It is also possible to use single or independent use of, for example, an auxiliary car 5, while it receives rail links directly from a special car and transports it to the installation site where rail links, for example, are lifted and stacked with special cranes.
    权利要求:
    Claims (7)
    [1]
    1. Mobile unit for removing, laying and transporting rezoshpalnye grids, containing two devices for the transfer of the latter, each of which includes a frame supported on a horizontal plane of a hodovy bogie, carrying a rail mounted at its ends with the possibility of independent transverse movement in a horizontal plane grips and two parks of telescopic driven supports for interaction with the base of the railway track, spaced along the frame, with the supports of each pair of Two subcarriages are placed opposite each other across the frame with the possibility of independent movement across the frame, the platforms whose platforms with end sections are supported on the undercarriage with flange wheels for independent movement with respect to these devices, in order to improve serviceability equipped with driven tracked undercarriages, pivotally mounted at the ends of the platforms of auxiliary cars by means of swiveling in the longitudinal vertical plane and a relay drive between running trolleys with flange wheels, with the specified pairs of supports being installed at a distance equal to a quarter of the length of the frame from each end.
    [2]
    2. The installation according to claim 1, characterized in that it is provided with additional rail clamps installed in the transverse plane between the indicated ones.
    [3]
    3. The installation according to claim 2, wherein it is provided with beams mounted on the frames of devices for transferring rail links across in the horizontal plane, wherein each beam is formed of three parts hinged together among themselves, the outermost of which are mounted with the ability to rotate in a horizontal plane, with rail clamps installed on these beams.
    [4]
    4. The installation according to claim 3, characterized in that it is provided with guide shells, each of which is connected to the middle part of the corresponding beam, has the shape of a rectangular parallelepiped and
    0
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    mounted in an appropriate form to the recess, which is made in the frame with the possibility of moving in a vertical plane by a hydraulic actuator, while the middle part of each beam is mounted with the possibility of rotation around a vertical axis relative to the guide body.
    [5]
    5. Installation by PP. 3 or 4, characterized in that each beam has pins on its upper surface for engaging with a hole which is formed on the support grip base, the grip having the shape of ticks.
    [6]
    6. Installation on PP. 1-5, characterized in that the platform of each auxiliary carriage is made with recesses on its lower surface for accommodating a corresponding pivoting frame of the crawler chassis carriage with a possibility of fixation.
    [7]
    7. Installation on PP. 1-6, characterized in that the platform of each auxiliary car is mounted with the possibility of transverse movement in the horizontal plane by a drive pivotally connected to the platform along rails, which are mounted on traveling trolleys with folding wheels.
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    引用文献:
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    FR2424361B1|1978-04-25|1982-04-02|Mercadier Paul|
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    法律状态:
    2007-12-20| REG| Reference to a code of a succession state|Ref country code: RU Ref legal event code: MM4A Effective date: 20060418 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP87890019A|EP0276646B1|1987-01-29|1987-01-29|Installation for taking-up or laying as well as transporting lengths of assembled track|
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