• 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 present invention relates to a lifting platform (1), comprising: a lower part (2, 3) equipped with members (7) of ground connection (S); an elevating structure (4); a platform (5) carried by the lifting structure (4); and a lighting system (20). The aerial platform (1) is characterized in that the lighting system (20) comprises different lighting devices (21, 22) other than driving lights, these lighting devices (21, 22) being arranged on the lower part (2, 3) of the aerial platform (1) and selectively generating light beams (F21, F22) directed towards the ground (S) and the environment close to the aerial platform (1), including at least part a zone between 0 and 1 meter from the edge of the members (7) of ground connection (S). The invention also relates to a method of implementing such an elevator nacelle (1).
    公开号:FR3030471A1
    申请号:FR1462803
    申请日:2014-12-18
    公开日:2016-06-24
    发明作者:Philippe Luminet;Sebastian Dittus
    申请人:Haulotte Group SA;
    IPC主号:
    专利说明:

    [0001] The present invention relates to a lifting nacelle. The invention also relates to a method of implementing such a lifting platform. The field of the invention is that of aerial work platforms. EP-A-2 374 635 describes an example of a lifting platform, comprising a motorized chassis provided with wheels, a turret pivoting 360 degrees on the chassis, an articulated lift arm on the turret, and a mobile platform arranged at the end of the lift arm.
    [0002] The platform can be equipped with a working headlight allowing the user to illuminate the area in height where he performs work. Also, the nacelle can be equipped with a beacon, generally placed on the turret or the frame, to indicate that the machine is in use. On other types of construction equipment, such as rotating telehandlers, the chassis or turret is equipped with driving lights projecting beams of light forward and backward for traffic on public roads. Generally, an aerial work platform is delivered or recovered at its place of use early in the morning or late at night, being transported on the trailer of a transport vehicle. An operator unloads the platform of the trailer, or loads the platform on the trailer, via a ramp. These operations present a risk of accident, in particular when the lighting conditions and / or the climatic conditions are bad. For example, the operator may be required to control the nacelle at night, while the position of the wheels relative to the edge of the ramp is difficult to discern. During these operations, the use of conventional driving lights would not provide optimal visibility to the operator. In this context, it is known to equip the trailer or the ramp with lighting devices, for example light-emitting diode (LED) strips. However, this requires changing the transport equipment, since most are not equipped with such devices. In addition, these devices do not provide optimal visibility to the operator. The risk of accidents is therefore always present. US-A-2013/0265789 describes an example of a transport vehicle comprising a removable trailer to form a loading ramp. The trailer is equipped with lighting devices. Alternatively, it is possible to illuminate the nacelle and its surrounding environment with projectors placed on the ground. However, such projectors are not always available because they represent an additional material to buy and store, and therefore an additional cost. Moreover, the introduction of such projectors before moving the platform and their storage after moving the platform takes time. On the other hand, an aerial work platform evolves in a construction environment where it is likely to perform maneuvers in all directions to reach the work area. In this case, it is necessary to check the absence of obstacles and holes on the whole periphery of the machine, and not only at the front of the chassis. If the lighting conditions and / or climatic conditions are bad, the operator has difficulty distinguishing such obstacles or holes. The aerial work platforms used inside buildings are generally equipped with quasi-silent electric drives. In this case, a beacon is used so that people near the basket can recognize that an intervention is in progress. Nevertheless, it is not always possible to position a beacon so that its light beam is perceived by people nearby, regardless of their position.
    [0003] The object of the present invention is to overcome the above disadvantages. For this purpose, the subject of the invention is a lifting platform, comprising: a lower part equipped with ground connection members; a lifting structure; a platform carried by the lifting structure; and a lighting system. The aerial platform is characterized in that the lighting system comprises different lighting devices other than driving lights, these lighting devices being arranged on the lower part of the aerial platform and selectively generating light beams directed towards the ground and the environment close to the aerial platform, including at least in part an area between 0 and 1 meter from the edge of the ground connection members. Thus, the invention provides a powerful lighting system, simple and practical to implement, adapted to illuminate the ground and the environment close to the nacelle. In particular, the lighting system makes it possible to illuminate the trailer and the ramp of the transport vehicle during the loading or unloading of the nacelle. Under conditions of low light and visibility, these operations are secure. In addition, the invention can be implemented during the interventions and movements of the nacelle on a site, even during the day, to warn people around the nacelle operating conditions and in particular emergency situations. . The invention thus makes it possible to reduce the risks of accidents, which answers a primordial safety imperative. In comparison with conventional driving lights, the lighting devices according to the invention provide improved visibility around the nacelle. In comparison with lighting devices equipping the trailer and the ramp, the lighting devices according to the invention do not require modifying the transport equipment and provide improved visibility around the nacelle. In comparison with projectors to be installed around the nacelle, the lighting devices according to the invention are immediately ready for use when needed and are mobile with the nacelle. In addition, the lighting devices according to the invention can perform additional advantageous functions, as will be apparent from the description below. According to other advantageous features of the invention, taken separately or in combination: the lighting system also comprises at least one lighting device arranged on the lifting structure or on the platform and selectively generating a directed light beam to the ground and the environment close to the aerial platform, including at least in part an area between 0 and 1 meter from the edge of the ground connection members. - The light beams project markings on the ground delimiting a marked area around the aerial work platform. At least one of the markings on the ground has a figurative form, for example a danger graphic. The lighting devices selectively generate light beams directed towards the ground and the environment close to the aerial platform, less than ten meters from the ground connection members. - The lighting devices at least partially illuminate the connecting members on the ground. - The lighting system comprises at least one lighting device arranged on a front side of the lower part, in particular on a front side of a turret belonging to the lower part. - The lighting system comprises at least one lighting device arranged on a lateral side of the lower part, in particular on a lateral side and the underside of a turret belonging to the lower part. - The lighting system comprises at least two lighting devices arranged on the lateral sides of the lower part, one on each side. - The lighting system comprises at least one lighting device arranged on a front side and the underside of the platform. - The lighting system comprises at least one lighting device arranged on a lateral side and the underside of the platform. - The lighting system comprises at least one lighting device arranged on the underside of the lifting structure. - The lighting system comprises at least one lighting device arranged on a lateral side, front or rear of the lifting structure. - The light beams generated by the lighting devices are inclined relative to the ground at angles between 20 degrees and 90 degrees inclusive. At least one of the lighting devices generates colored light beams whose color is a function of the operating conditions of the aerial platform. The invention also relates to a method of implementing a lifting platform as mentioned above. The method is characterized in that during a maneuvering operation on site, loading or unloading of the aerial platform, the lighting devices generate light beams directed towards the ground and the environment close to the aerial platform, including at least in part an area between 0 and 1 meter from the edge of the ground connecting members. The invention will be better understood on reading the following description, which is given solely by way of nonlimiting example and with reference to the appended drawings in which: FIG. 1 is a perspective view of an aerial platform according to FIG. the invention; - Figure 2 is a side view along the arrow II in Figure 1; - Figure 3 is a top view along the arrow III in Figure 1; - Figure 4 is a front view along the arrow IV in Figure 1; Figure 5 is an elevational view from the point of view of an operator positioned in the basket of the nacelle, the nacelle being shown schematically for the purpose of simplification; - Figure 6 is another schematic representation of the nacelle, shown in perspective; Figure 7 is a schematic representation of an operator positioned in the basket of the nacelle, in a work situation; Figure 9 is a schematic representation of the operator pressing a stop button in emergency stop situation; Figure 11 is a schematic representation of the nacelle, in a situation of failure Figure 13 is a schematic representation of the operator positioned in the basket of the nacelle, accident situation; Figures 8, 10, 12 and 14 are partial schematic representations of the nacelle, respectively corresponding to the situations of Figures 7, 9, 11 and 13, with light beams of different colors; and Figure 15 is a view similar to Figure 2, showing a second embodiment of a nacelle according to the invention. In Figures 1 to 14 is shown a lifting platform 1 according to the invention.
    [0004] The nacelle 1 comprises a rolling frame 2, a turret 3, a telescopic arm 4 and a platform 5. The frame 2 and the turret 3 constitute the lower part of the nacelle 1, while the telescopic arm 4 constitutes the lifting structure. of the nacelle 1. The nacelle 1 has a front side 11, a rear side 12, a left side 13 and a right side 14. The nacelle 1 is intended to be controlled by an operator 10 positioned on the platform 5. L Operator 10 is shown schematically only in FIGS. 7, 9 and 13, for purposes of simplification. The frame 2 extends along a longitudinal axis X2. The chassis 2 is provided with axles 6 supporting wheels 7, allowing the nacelle 1 to translate on a surface on the ground S. The wheels 7 form ground connecting members S of the nacelle 1. On the example of the Figures, the axles 6 are telescopic and articulated in rotation on the frame 2. Nevertheless, in practice, the axles 6 may have any configuration adapted to the intended application. In particular, the axles 6 can be straight axles, telescopic or not. The drive means of the chassis 2, not shown, may comprise an internal combustion engine or an electric motor. On the frame 2 can also be mounted a central electronic management unit, a hydraulic tank, a fuel tank, and / or a set of electric batteries. The turret 3 is mounted on the frame 2, being able to rotate 360 degrees about a vertical axis Z3. Preferably, the turret 3 is actuated by hydraulic means, not shown. The turret 3 has a longitudinal housing 31 provided to receive the arm 4 in the rest position. The turret 3 also comprises a lateral flap 32 removably covering a control panel 33. The telescopic arm 4 is mounted on the turret 3, being articulated in rotation about a horizontal axis Y4. The arm 4 comprises several elongate boxes 41, 42, 43 and 44, nested in each other. Alternatively, the arm 4 may be an articulated lift arm or any other known type. At the end 44 of the arm 4 is arranged a parallelogram structure 45, supporting the platform 5. The platform 5 is provided to receive a load, including personnel and equipment. The platform 5 comprises a basket 51 and a control console 52 disposed on the front side 11 of the basket 51. In displacement on the ground S, when the turret 3 is oriented at 0 degrees, the operator 10 of the platform 1 is positioned in the basket 51 of the platform 5 and looks towards the front side 11 of the platform 1. The basket 51 is formed by different vertical and horizontal uprights. The basket 51 is provided with an access door 53 located on the rear side 12. The nacelle 1 is also equipped with a lighting system 20, for illuminating the ground S and the environment close to the nacelle 1 within 10 meters of the wheels 7. As the projected light rays are generally diffuse, it is specified that the lighting system 20 is intended to illuminate essentially within five meters of the wheels 7. In other words, at least 50% of the the luminous intensity projected by the lighting system 20 is concentrated within five meters of the wheels 7.
    [0005] In particular, the lighting system 20 aims to illuminate at least partly an area between 0 and 1 meter from the edge of the wheels 7, around the pod 1. In this case, the edge of the wheels 7 designates their outer shell on the side opposite the frame 2. Preferably, the lighting system 20 at least partially illuminates the wheels 7. Thus, the system 20 improves the visibility of the operator 10 positioned on the platform 5 and to facilitate its maneuvers, both during a loading or unloading operation of the pod 1 or during a maneuvering operation on site. In addition, during the work of the operator 10 in height, the system 20 can warn people on the ground S of the current intervention, or to prevent them in case of emergency.
    [0006] The lighting system 20 comprises several lighting devices 21, 22 and 23, arranged on the turret 3 and the platform 5. In the example of the figures, two devices 21 are positioned on the front of the turret 3 two devices 22 are positioned on the sides and below the turret 3, while a device 23 is positioned on the front and the bottom of the platform 5.
    [0007] As shown in FIGS. 3 to 6, the devices 21, 22 and 23 generate light beams F21, F22 and F23 projecting markings M21, M22 and M23 on the ground S. In FIGS. 2, 3 and 4, all the devices 21, 22 and 23 are on. In FIG. 5, the devices 21 and 23 are lit, but not the devices 22. In FIG. 6, the devices 21 and 22 are lit, but not the device 23.
    [0008] The devices 21, 22 and 23 are configured to illuminate the ground S and the environment close to the platform 1. The beams F21 are directed generally towards the front of the turret 3, so that when the turret 3 is in the upright position relative to the frame 2, the markings M21 are located on the front side 11 of the platform 1. The bundles F22 are directed generally on the sides of the turret 3, so that when the turret 3 is in the upright position relative to the frame 2 , the markings M22 are located on the lateral sides 13 and 14 of the platform 1. The bundles F23 are directed generally towards the front of the platform 5, so that when the turret 3 is in the upright position relative to the frame 2, with the mast 4 and the platform 5 located in its extension of the rear side, the marking M23 is located on the rear side 12 of the nacelle 1.
    [0009] In the example of Figures 2 and 3, the light beams F21, F22 and F23 are inclined relative to the ground S at angles ai, a2 and a3 between 20 and 90 degrees inclusive. More specifically, as shown in Figures 2 and 3, each device 21, 22 and 23 generates light beams F21, F22 and F23 inclined relative to the ground S according to a set of angles ai, a2 and a3 between 20 and 90 degrees included, regardless of the direction considered. In particular, the angles α1 are between 50 and 75 degrees, the angles α2 are between 50 and 65 degrees, and the angles α3 are between 25 and 35 degrees. For a gondola 1 traveling at maximum 6 km / hour and braking two meters, the beams F21, F22 and F23 are oriented to illuminate within five meters of the chassis 2. More precisely, the beams F21, F22 and F23 are oriented to illuminate at least in part the area between 0 and 1 meter from the edge of the wheels 7. As shown in Figures 2 and 3, the markings M21, M22 and M23 ground S partially cover this area, but not completely. Preferably to facilitate maneuvers, the markings M21, M22 and M23 extend partly below and around the wheels 7.
    [0010] In comparison with the lighting system 20 of the invention, the beams projected by the driving lights fitted to motor vehicles are designed to illuminate, at low beam, at least thirty meters from the chassis. Thus, these driving lights are generally inclined relative to the ground S, in low beam, at angles between 3 and 15 degrees inclusive. The driving lights do not illuminate the ground S near the wheels. Preferably, the devices 21, 22 and 23 are fixed, in other words the orientation of the beams F21, F22 and F23 is fixed. Alternatively, the devices 21, 22 and 23 can be configured to orient their beams F21, F22 and F23. In other words, the devices 21, 22 and 23 can project orientable beams F21, F22 and F23. In this case, the angles ai, a2 and a3 are adjustable. As shown in particular in FIG. 3, the markings M21, M22 and M23 are projected by the lighting system 20 all around the pod 1. Thus, the markings M21, M22 and M23 delimit a marked zone Z20 around the pod 1 , materialized by a fictitious barrier B20 shown in broken lines in FIG. 3. The invention thus makes it possible to improve the safety of persons close to the nacelle 1.
    [0011] According to a particular embodiment shown in Figure 3, the lighting devices 21, 22 and 23 comprise a partial closure system, such as a mask having a distinctive shape. The masks make it possible to include distinctive forms on the floor S in the markings M21, M22 and M23. The distinctive form can be a symbol, a logo or text. The distinctive form may in particular represent a danger graphic M24, as represented in the example of FIG. 3.Thus, the system 20 makes it possible to provide richer information to the persons close to the pod 1 to enable them to adopt a appropriate behavior. The mask can be fixed, or designed to be removable depending on the situation. According to a variant, only certain devices 21, 22 or 23 are equipped with a mask. The lighting system 20 can be set so that when the platform 1 starts, at least some of the devices 21, 22 and 23 are automatically switched on. In use, each of the devices 21, 22 and 23 can be selectively switched on or off, at the choice of the operator 10. The lighting system 20 may also include a safety device provided to automatically turn on all or part of the devices. lighting 21, 22 and 23 in case of emergency. In addition, at least some of the devices 21, 22 and 23 may be configured to project dynamic signals, in the form of specific lighting, such as color changes or intermittent flashes. These dynamic signals can be activated in an emergency, or depending on the movements of the nacelle 1 or its constituent elements, for example during the translation of the frame 2 or the descent of the platform 5. These signals The dynamics make the lighting system 20 even more visible, which further improves the safety of persons close to the platform 1, as well as the safety of the operator, especially in an emergency situation. The devices 21, 22 and 23 may be in the form of conventional headlights, as is the case of the devices 21 in the figures. In this case, these headlights nevertheless do not fulfill a function of conventional driving lights. Alternatively, the devices 21, 22 and 23 may each be in the form of a housing including a housing, a window, and one or more bulbs or light emitting diodes (LED) arranged in the housing and projecting light beams to through the window. Advantageously, the LEDs have a long life and require virtually no maintenance. For each device 21, 22 and 23, the bulbs or diodes can be arranged in a particular pattern. Thus, the lighting system 20 has a particular visual signature, reinforcing the visual identity of the nacelle 1.
    [0012] The nacelle 1 may comprise other auxiliary lighting devices, for example to illuminate the area of intervention height of the operator 10. Alternatively, the devices 21, 22 or 23 may be configured to be able to orient their beams F21 , F22 and F23 to illuminate the intervention zone at height.
    [0013] In Figures 7 to 14 are illustrated different conditions C1, 02, 03 and 04 of operation of the nacelle 1, including emergency situations. Figures 7, 9, 11 and 13 are diagrammatic representations of different work or emergency situations. FIGS. 8, 10, 12 and 14 are partial diagrammatic representations of the nacelle 1 shown in FIG. 6, respectively corresponding to the situations of FIGS. 7, 9, 11 and 13, with light beams FC1, F02, F03 and F04 of FIG. different colors. Advantageously, at least some of the colors used correspond to conventions known to the general public, especially used on automotive dashboards: green: normal situation, orange: malfunction does not require immediate stop, red: danger requiring an immediate stop. In FIG. 7, the operator 10 is positioned in the basket 51 of the platform 1, in working situation or condition C1. In FIG. 8, the devices 21 and 22 project beams FC1 of green color. Thus, thanks to the system 20, people on the ground S near the nacelle 1 can easily recognize that an intervention is in progress, and behave accordingly. In FIG. 9, the hand of the operator 10 is about to press an emergency stop button 54 fitted to the control console 52. The safety stop mode of the platform 1 is then activated, which corresponds to the condition 02. In FIG. 10, in this safety-off mode, the devices 21 and 22 project red-colored beams F02. Thus, thanks to the system 20, the people on the ground S near the platform 1 can easily recognize that the safety stop mode has been activated, and react accordingly. The safety stop mode can also be activated by other platform safety devices, such as a platform load limiter or a chassis tilt limiter. These safety devices are conventional and will not be described further. In FIG. 11, the nacelle 1 is represented in a failure situation, or condition 03. In FIG. 12, the devices 21 and 22 project orange F03 beams. Thus, thanks to the system 20, people on the ground S near the nacelle 1 can easily recognize that the nacelle 1 is down, and react accordingly.
    [0014] In Figure 13, the operator 10 is positioned in the basket 51 of the nacelle 1, when an accident occurs. In this case, the operator 10 working in height in the basket 51 accidentally hits a beam during a displacement of the platform 5. A security system, for example a removable bar 55 disposed between the operator 10 and the control console 52, then allows to activate an accident mode of the platform 1, or condition 04. In Figure 14, the devices 21 and 22 project beams F04 blue. Thus, thanks to the system 20, the people on the ground S near the nacelle 1 can easily recognize the accident situation in height, and react accordingly.
    [0015] Thus, according to an advantageous embodiment of the invention, at least one of the lighting devices 21, 22 and 23 is configured to generate colored light beams FC1, F02, F03, F04, whose color is a function of the operating conditions C1, 02, 03, 04 of the nacelle 1. Preferably, at least some of the devices 21, 22 and 23, or all devices 21, 22 and 23, are configured to generate colored light beams FC1, F02 , F03 and F04. For this purpose, the devices 21, 22 or 23 preferably comprise a set of diodes of different colors. Different colors can be projected by the same device 21, 22 or 23, with a distinct color for each operating condition C1, 02, 03, 04 of the platform 1. The set of devices 21, 22 and 23 project a given color for a particular operating condition C1, 02, 03, 04 of the nacelle 1. In comparison, it is known to equip a machine with a screen device displaying an image, to indicate to people in the near environment machine is energized or the chassis moves.
    [0016] In Figure 15 is shown a lifting platform 1 according to a second embodiment of the invention. The constituent elements similar to the first embodiment bear the same reference numerals. The device 23 is positioned on the underside of the lifting structure 4, more precisely under the box 41, instead of being positioned on the platform 5. Alternatively, the device 23 can be positioned at another location of the structure 4. In addition, the lifting platform 1 may be shaped differently from Figures 1 to 15 without departing from the scope of the invention. In particular, the lighting system 20 may have any configuration adapted to the intended application. According to a particular variant not shown, the ground connection members S equipping the rolling frame 2 may be caterpillar instead of the wheels 7.
    [0017] In practice, the aerial platform 1 may be a platform with articulated arm, a telescopic arm platform, a vertical mast platform, a scissor lift. Depending on its construction and dimensions, the nacelle 1 can be used for maintenance or pruning work, for inventories in warehouses, for shipyards, demolition, construction or maintenance and finishing works art, etc. Whatever the embodiment, the nacelle 1 comprises a lower part 2 + 3 equipped with members 7 of ground connection S, a lifting structure 4, a platform 5 and a lighting system 20. The system illumination 20 comprises various lighting devices 21 + 22 other than driving lights, which are arranged on the lower part 2 + 3 of the aerial platform 1 and selectively generate light beams F21 + F22 directed towards the ground S and the environment close to the aerial platform 1, including at least in part an area between 0 and 1 meter from the edge of the bodies 7 of ground connection S. In addition, the technical characteristics of the various embodiments and variants mentioned above may be, in whole or in part, combined. Thus, the aerial platform 1 can be adapted in terms of cost, functionality and performance.
    权利要求:
    Claims (10)
    [0001]
    REVENDICATIONS1. Lifting platform (1), comprising: a lower part (2, 3) equipped with members (7) of ground connection (S); an elevating structure (4); a platform (5) carried by the lifting structure (4); and a lighting system (20); characterized in that the lighting system (20) comprises different lighting devices (21, 22) other than driving lights, said lighting devices (21, 22) being arranged on the lower part (2, 3). ) of the aerial platform (1) and selectively generating light beams (F21, F22) directed towards the ground (S) and the environment close to the aerial platform (1), including at least in part an area between 0 and 1 meter from the edge of the ground connecting members (7) (S).
    [0002]
    2. aerial platform (1) according to claim 1, characterized in that the lighting system (20) also comprises at least one lighting device (23) arranged on the lifting structure (4) or on the platform (5) and selectively generating a light beam (F23) directed towards the ground (S) and the environment close to the aerial platform (1), including at least in part an area between 0 and 1 meter from the edge of the organs ( 7) ground connection (S).
    [0003]
    3. Lift platform (1) according to one of the preceding claims, characterized in that the light beams (F21, F22, F21, F22, F23) project markings (M21, M22, M21, M22, M23) to the ground ( S) delimiting a marked zone (Z20) around the aerial platform (1).
    [0004]
    4. Lift platform (1) according to claim 3, characterized in that at least one of the markings (M21, M22, M21, M22, M23) on the ground (S) comprises a figurative form (M24), for example a graphic of danger.
    [0005]
    Lifting platform (1) according to one of the preceding claims, characterized in that the lighting devices (21, 22; 21, 22, 23) selectively generate light beams (F21, F22, F21, F22, F23). ) directed towards the ground (S) and the environment close to the aerial platform (1), less than ten meters from the edge of the ground connection members (7) (S).
    [0006]
    Lifting platform (1) according to one of the preceding claims, characterized in that the lighting devices (21, 22; 21, 22, 23) at least partially illuminate the ground-engaging members (7) (S). ).
    [0007]
    Lifting platform (1) according to one of the preceding claims, characterized in that the lighting system (20) comprises at least one lighting device (21) arranged on a front side (11) of the lower part. (2,3), in particular on a front side (11) of a turret (3) belonging to the lower part (2, 3).
    [0008]
    Lifting platform (1) according to one of the preceding claims, characterized in that the lighting system (20) comprises at least one lighting device (22) arranged on a lateral side (13; lower part (2,3), in particular on a lateral side (13; 14) and the underside of a turret (3) belonging to the lower part (2, 3).
    [0009]
    9. Lift platform (1) according to one of the preceding claims, characterized in that at least one of the lighting devices (21, 22; 21, 22, 23) generates colored light beams (FC1, F02). , F03, F04) whose color is a function of the operating conditions (Cl, 02, 04, 04) of the aerial platform (1).
    [0010]
    10. A method of implementing a lifting platform (1) according to one of claims 1 to 9, characterized in that during an operation of maneuver on site, loading or unloading the aerial platform (1). ), the lighting devices (21, 22; 21, 22, 23) generate light beams (F21, F22, F21, F22, F23) directed towards the ground (S) and the environment close to the aerial platform ( 1), including at least in part an area between 0 and 1 meter from the edge of the members (7) of ground connection (S).
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    同族专利:
    公开号 | 公开日
    EP3233713A1|2017-10-25|
    US20170341566A1|2017-11-30|
    AU2015366210A1|2017-07-13|
    AU2015366210A2|2017-09-21|
    WO2016097367A1|2016-06-23|
    US10071678B2|2018-09-11|
    CN107207231A|2017-09-26|
    AU2015366210B2|2019-10-24|
    CN107207231B|2019-02-12|
    FR3030471B1|2019-06-14|
    EP3233713B1|2019-01-02|
    CA2970555A1|2016-06-23|
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    CN202297054U|2011-09-22|2012-07-04|南京优睿创智能科技有限公司|Commanding height establishment control platform and commanding height establishment control vehicle|
    US9132770B2|2012-04-05|2015-09-15|Oshkosh Corporation|Vehicle illumination system|FR3030472B1|2014-12-18|2020-10-16|Haulotte Group|LIFT PLATFORM AND IMPLEMENTATION PROCEDURE|
    CN106430015B|2016-08-24|2019-05-24|浙江鼎力机械股份有限公司|Car body and aerial work platform with turnable control cabinet|
    CN106395697B|2016-08-24|2019-10-01|浙江鼎力机械股份有限公司|Expansion joint assembly and aerial work platform|
    AU201713155S|2016-12-02|2017-06-09|Zhejiang Dingli Machinery Co|Aerial work platform|
    AU201713157S|2016-12-02|2017-06-09|Zhejiang Dingli Machinery Co|Aerial work platform|
    GB201700071D0|2017-01-04|2017-02-15|Yarwood Michael S|Vehicle safety systems|
    AT520489A1|2017-10-11|2019-04-15|Rosenbauer Int Ag|Method for ambient lighting of an emergency vehicle|
    US10287150B1|2018-01-06|2019-05-14|Ford Miller Holding Company, LLC|Mobile platform carrying system|
    DE102018005430A1|2018-07-10|2020-01-16|Rosenbauer International Ag|Emergency vehicle with a movable emergency unit and a safety device|
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    法律状态:
    2015-12-08| PLFP| Fee payment|Year of fee payment: 2 |
    2016-06-24| PLSC| Search report ready|Effective date: 20160624 |
    2016-12-06| PLFP| Fee payment|Year of fee payment: 3 |
    2017-11-23| PLFP| Fee payment|Year of fee payment: 4 |
    2019-11-20| PLFP| Fee payment|Year of fee payment: 6 |
    2021-09-10| ST| Notification of lapse|Effective date: 20210806 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1462803A|FR3030471B1|2014-12-18|2014-12-18|LIFT BOOM AND METHOD OF IMPLEMENTING THE SAME|
    FR1462803|2014-12-18|FR1462803A| FR3030471B1|2014-12-18|2014-12-18|LIFT BOOM AND METHOD OF IMPLEMENTING THE SAME|
    EP15820121.0A| EP3233713B1|2014-12-18|2015-12-18|Aerial lift and method for implementing same|
    PCT/EP2015/080648| WO2016097367A1|2014-12-18|2015-12-18|Aerial lift and method for implementing same|
    AU2015366210A| AU2015366210B2|2014-12-18|2015-12-18|Aerial lift and method for implementing same|
    CN201580069151.5A| CN107207231B|2014-12-18|2015-12-18|Overhead and its implementation method|
    US15/535,387| US10071678B2|2014-12-18|2015-12-18|Aerial lift and method for implementing same|
    CA2970555A| CA2970555A1|2014-12-18|2015-12-18|Aerial lift with lighting device generating light directed to the ground, and implementation method|
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