• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
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  • 优先权
    • 专利摘要:
    Loader and unloader module driven by winch and adaptable to the vehicle loading area (3) between a loading and unloading position, a transport position and a folding position and characterized in that said module comprises a rectangular base structure (2) , foldable on itself and extensible in length, width and height which in turn comprises at least one load structure (1) foldable on itself, foldable and extensible in width, which is connected to the cable (2.20) of at least a winch (2.8) integral with the base structure (2), whereby said load structure (1) is moved longitudinally by the winch (2.8) along at least two rails (2.5) and transversely by means of movable systems with at least one pulley installed in the base structure (2) and in the load structure (1), allowing loading or unloading in any part of the loading area (4.1). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2663904A1
    申请号:ES201600881
    申请日:2016-10-17
    公开日:2018-04-17
    发明作者:Ángel HERNÁNDEZ SOBRINO;Maria Del Mar MILENA HIDALGO;Raúle FERNANDEZ ROUSSEAU
    申请人:Ángel HERNÁNDEZ SOBRINO;Maria Del Mar MILENA HIDALGO;Raúle FERNANDEZ ROUSSEAU;
    IPC主号:
    专利说明:

    OBJECT OF THE INVENTION
    The present invention, as stated in the present specification, refers to a loader and unloader module driven by at least one winch

    adaptable totheboxfromloadfromvehicles ,howtrucks,
    trailers, vans,betweenothers .Fromisway,It allows
    load Yto downloadobjectsfromgreatweighinginsayings
    vehicles, withouttheneedfrombescrewedor soldier,

    adapting to any loading area.
    BACKGROUND OF THE INVENTION
    Some people who use trailers or trucks equipped with cargo boxes to transport goods or heavy objects on a daily basis such as construction materials, removals, firewood, tools for tillage among others; These are usually loaded and unloaded manually, with these people supporting great physical efforts and accidents.
    The present invention, in addition to solving such problems described above, is capable of being easily installed and uninstalled manually without having to weld, screw or perform any other action that affects the original structure of the vehicle or its loading area where it is installed, considering the charger and unloader module as a complement for this type of vehicles,
    without the need for homologation or any procedure
    so that the present invention can be installed and
    used in any cargo box, and after use, be
    folded and stored where desired.
    s
    DESCRIPTION OF THE I NVENTION
    The present invention relates to a charger module and
    winch-operated unloader and adaptable to the box
    10 of vehicle loading, comprising a base structure by
    which runs a load structure, which is
    connected to the steel cable of the winch that gives the
    mobility through rails arranged in both
    lateral at the top of the base structure.
    lS
    Once the module is installed, its structural base rests
    over the loading area of the vehicle occupying only its
    margins, leaving the rest of the space left for loading
    and download.
    twenty
    The charger and unloader module can place the
    loading anywhere chosen from inside the
    loading area of the vehicle, since its load structure
    it has the degree of freedom in longitudinal movement and
    2S cross.
    On the other hand, it is worth highlighting its versatility when
    if installed or uninstalled from the cargo area of the
    vehicle, since its structure is adjustable in length,
    30 width and height, making it perfectly adaptable
    to any zone that is in its dimensional range. further
    its structure collapses causing the
    higher structural components and thus be
    transportable by road, the module being folded into the loading area without being obresalir.
    In addition, the module of the present invention has folding legs, adjustable in height and with wheels at its ends, so that when it is introduced into the loading area, these are folded down, and when removed, they recover their normal position to the ground, thanks to springs installed in the axes of folding of the legs, and in this way, to be able to easily handle and move said module once removed from the vehicle.
    Another quality possessed by the present invention, for
    reduce itssizeYoccupylessspaceinthe place wherehe
    module Eastdestinedtobeguarded,isthathavethe
    peculiarity fromfoldonyessame,preferablyin
    width Yheight .
    DESCRIPTION OF THE FIGURES
    The present specification is complemented by a set of figures, illustrative of the preferred example and never limiting of the invention.
    Figure number 1 - Shows a perspective view of a preferred embodiment of a loader and unloader module driven by a winch adaptable to the vehicle load box, the load structure being appreciated.
    Figure number 2 - Shows a perspective view of a preferred embodiment of a loader and unloader module driven by winch adaptable to the vehicle load box, the base structure being appreciated.
    Figure number 3 - Shows a perspective view of
    a preferred embodiment of a charger module and
    winch operated unloader adaptable to the box
    vehicle load appreciating the set formed by the
    5 load structure of figure 1 and the base structure of the
    Figure 2, where you can see its configuration outside the box
    gives the vehicle load with all its structural elements is
    that are not extended in length, width and height.
    10 Figure number 4 - Shows a perspective view of
    a preferred embodiment of a charger module and
    winch operated unloader adaptable to the box
    vehicle load appreciating the set formed by the
    load structure of figure 1 and the base structure of the
    B Figure 2, where its configuration is shown outside the
    load of the vehicle with all its elements
    structural, which are extended in
    Length, width and height.
    twenty Figure number 5 - Shows a perspective view of
    a preferred embodiment of a charger module and
    winch operated unloader adaptable to the box
    vehicle charging by appreciating the charger module of the
    Figure 4 installed in a vehicle with cargo box, which in
    25 this case has been represented by way of example with a
    trailer, which shows how the module adapts to the
    vehicle interior
    Figure number 6 - Shows a perspective view of
    30 a preferred embodiment of a charger module and
    winch operated unloader adaptable to the box
    vehicle load appreciating more externally, its
    provision in the vehicle.
    Figure number 7 - Shows a profile view of a preferred embodiment of a loader and unloader module operated by winch adaptable to the vehicle load box, showing the different longitudinal positions that the load structure of Figure 1 can adopt. along the rails located on each side of the base structure of figure 2 to be able to load or unload the object or cargo in the desired area inside the vehicle's cargo box.
    Figure number 8 shows an elevation view of the rear part of a preferred embodiment of a loader and unloader module operated by a winch adaptable to the vehicle loading box, showing the different transverse positions that the pulley system They contain the winch cable along the upper jaw of the load structure of Figure 1 and the base structure of the figure respectively, so as to place the load in the desired place inside the the loading area of the vehicle.
    Figure number 9 - Shows a perspective view of a preferred embodiment of a loader and unloader module operated by winch adaptable to the vehicle load box, showing the folded position of the load structure of Figure 1 on the base structure of figure 2 for road transport of the loader and unloader module inside the vehicle, in this case, a trailer.
    Figure number 10 - Shows a perspective view of a preferred embodiment of a charger module
    and unloader operated by a winch adaptable to the vehicle cargo box, showing the load structure of Figure 1 and the base structure of Figure 2 folded on themselves so that they occupy less space in the place where the loader module is intended and downloader to be saved.
    Figure 11 shows a plan view of a preferred embodiment of a loader and unloader module driven by a winch adaptable to the vehicle load box, showing the arrangement of the folded structural parts at the time the module is stored Charger and downloader.
    DETAILED EXHIBITION OF THE INVENTION
    In view of the aforementioned figures, and in accordance with the numbering adopted, a preferred, but not limiting, example of the loader and unloader module driven by winch adaptable to the vehicle cargo box (3) can be observed ) recommended, which includes the parts and elements indicated and described in detail below.
    The figures show a loader and unloading module driven by a winch adaptable to the vehicle load box (3), characterized in that it comprises a base structure (2) which in turn supports a load structure (1), preferably metallic The load structure comprises in its lower part bearings (1.6) through which it preferably connects with two rails
    (2.5) each located on both sides preferably on the upper part of the base structure (2), giving the
    load structure (1) a degree of linear freedom of movement along these rails (2.5). The linear movement of the load structure (1) through the rails (2.5) is produced by the action of at least one winch (2. 8) installed at the rear of the base structure (2) and preferably at the same height as the rails (2.5). The steel cable (2.20) of the winch (2. 8) runs through at least one pulley (2. 16) located in a japan
    (2.1) on the back of the module (3) of the present invention and said jacena (2. 1) connected to the base structure (2) through two pillars (2. 2) that preferably raise it between 1 and 1 , 5 meters above the rails
    (2.5) to then connect the cable (2.20) of the
    winch (2. 8)withothersystemfrompulleys(1.11)located
    in thefor youhigherfromthestructurefromload(one)thewhich
    remains connectedwiththe winch(2.8).
    In figure 2 where the parts that form the base structure (1) of this example of a winch and unloading module driven by winch (3) are shown, whereby such structure (1) is extensible in length, width and height set that each extensible element of its structure (1) is a preferably metallic and rectangular section tube that contains another tube in its interior with a section smaller than this but of similar lengths and joined the tube of smaller section by one of its ends to the base structure (2) and the larger section tube joined at the opposite end to said structure (2) such that the inner tube runs inside the outer tube when the extension of the structure (2) occurs, and thus being able to adapt to any cargo box (4. 1) of any vehicle (4) that is in its dimensional range.
    As shown in Figure 2, to facilitate the
    transfer and handling of the charger and unloader module (3) outside
    of the vehicle (4), it has been preferably provided with four
    folding legs (2.13) with wheels (2.21) at their ends, with
    5 a distribution of at least two legs (2. 13) on each side
    of the base structure (2). Said legs (2.13) comprise the
    less an axis of despondency in its upper part, than to
    through at least one spring (2.14), they can after being
    Down 90 degrees, return to its original position.
    10
    The base structure (2) of the charger module and
    downloader (3) comprises at its back, at least two
    pillars (2. 2) that protrude with a height determined by
    above the base structure (2), preferably between 1 and 2
    fifteen meters, which preferably hold by means of screws,
    a jacena (2. 1) located at the top of said
    pillars (2.2), formed by an extensible metal bar in
    length, in which at least one pulley (2.16) is mounted on a
    mobile system (2. 15), which surrounding the bar (2.1), is
    twenty move through the jacena (2. 1) by means of wheels
    or bearings (2.17) that are inside
    said system (2. 15).
    Such structural assembly, formed by the pillars (2.2)
    2S and jácena (2.1), described above, are attached to the
    base structure (2) by means of at least one hinge (2.18)
    located at the lower ends on both pillars (2.2),
    giving them an angle of dejection to be
    folded when the charger and unloader module (3) has
    30 that transport by road or be stored in garage;
    reducing in height, one of its largest structures.
    In addition the center of the jacena (2. 1) is articulated
    allowing the charger and unloader module (3) to
    fold over itself as seen in figure 10 and figure 11.
    As contemplated in Figure 2, the structure
    The base (2) comprises in its upper part, two rails (2.5) each located on both sides and preferably fixed by screws to the front pillars (2.11) and to the rear pillars (2. 12) of the base structure (2) . The load structure (1) is attached to the base structure (2) through
    10 the rails (2. 5), which grant freedom of movement to the load structure (2) along them. Said rails (2.5), preferably have an inclination angle of between 10 to 30 degrees with respect to the ground, with greater height in the rear area and less height in the area
    Previous 15 of the rails (2. 5), in this way, the load structure (1) can advance towards the front part of the loader and unloader module (3) by action of the gravity of the earth to which the weight is subjected of this, said advance being controlled with the winch (2. 8), since
    20 its cable (2.20) is connected to the pulley system (1. 11) located at the top of the load structure (1).
    The rails (2.5) comprise at each of its rear ends a segment of rail (2. 10) with a length 25 preferably between 1 and 0.5 meters, and with the same profile as the rail (2. 5) that precedes; such segments (2. 10) are attached to their respective rails (2.5) by at least one hinge (2.9), for when the module expands in length
    loader and unloader (3) these segments (2.10) can be folded to an angle of 0 degrees with their
    respective rails (2.5), increasing the length of these.
    On the other hand, the rails (2.5) each comprise at their previous ends a curved extension (2,7) with their same profile and joined said extensions (2 .7) to each one
    from thesebyto thelessahinge(2. 6),forthatto the
    transport hemodulechargerYDownloader(3)by
    highway, Eastkeep uptheextensionscurves(2.7)from
    the rails(2.5)insideof thevehicle(4)byreasonsfrom
    security .
    As can be seen in Figure 7, the main function of these extensions (2. 7) in the form of an arc of circumference is to anchor the load structure (1) at its end by the pressure action it exerts in said position on that point of the rail (2.5), and thus adopt a position parallel to the ground that facilitates the loading and unloading of heavy objects with the exterior of the vehicle.
    The base structure (2) represented in Figure 2, comprises at least one winch (2.8) mounted on a mobile system (2, 3), very similar to the mobile system (1.10) with the pulley (1. 11) of the structure loading (1); said system
    (2.3) it is mounted on a jácena (2. 4) supported by the rear pillars (2.11) of the base structure (2) and attached thereto preferably by at least one screw at each end; in this way, the mobile system (2.3) gives the winch (2. 8) a degree of freedom of movement along the japan (2. 4), by the action of bearings (2.17) positioned inside the system mobile (2.3) and surrounding the jacena (2. 4) by its surface. Said Jacena
    (2.4) It has a rectangular section, extensible in length and is articulated in its half to allow the loading and unloading module (3) to fold over itself as seen in figure 10 and figure 11.
    As shown in Figure 2, all the bars contained in the width of the base structure are articulated in half, so that in this way, the loading and unloading module (3) of the present invention can be folded on itself, reducing its width considerably, so that in this way it occupies less space in the place where it is intended to be stored, as contemplated in Figure 10 and Figure 11.
    Figure 1 shows the load structure (1) of the loader and unloader module (3), which comprises at least two pillars (1.2), which are joined at their upper ends to a jácena (1.1) preferably by the minus one screw (1.9) at each end. The jácena (1.1) located at the top of the load structure (1) can be extended allowing said structure (1) to be able to increase its width preferably between 1 and 0.5 meters.
    Furthermore, said structure (1) comprises a set of pulleys (1.11) mounted on at least one mobile system (1.10), which surrounds the jácena (1.1), being able to move
    he setfrompulleys(1.11)next tomobile system(1.10)to
    the longfromis.Hesystemmobile(1.10)bemovesto
    through fromthejacena(1.1)bymeans, mediumfromnailwheelsor
    bearings (1,13) that are inside said system (1.10), allowing the latter a degree of freedom of movement along the surface of the jacena (1.1).
    To facilitate the folding of the module (3) on itself as shown in Figure 10 and Figure 11, the jácena
    (1.1) it has at one of its ends a joint (1. 7) by means of a safety pin (1.8) so that when the joint is removed (1.7), the jácena (1.1) can detach from the pillar
    (1.2) And placed at an angle of 0 degrees with respect to the other pillar (1.2) And thus allow the folding of the loading and unloading module (3) of the present invention.
    In the embodiment of Figure 1, each pillar (1.2) of the load structure (1) comprises at its lower end at least one base tube (1.5), an angular regulation tube
    (1.4) and a support bar (1.3) with rectangular and preferably metallic sections, arranged in a triangular shape; which fulfill the function of giving stability to the pillars (1. 2) of the load structure (1) by having each pillar (1.2) rest on the upper end of each of the support bars (1. 3) , giving the pillars (1.2) an inclination angle preferably, between 70 and 50 degrees with respect to the rails (2, 5), in order to be able to adjust said angle according to the slope of the terrain to which the loader module is subjected and downloader
    (3), so that, at a greater slope of the terrain, a smaller angle would adopt the position of the pillars (1.2) of the load structure (1) with respect to the rails (2.5).
    As seen in figure 1, each base tube (1, 5) comprises at each of its ends two ex is made of steel
    (1.14) perpendicular to it, and in turn, each axis (1.14)
    understands initsextremeoppositeto thetubebase(1.5),a
    Bearing linear(1. 6),hewhichgoesinsertedinits
    respective rail(2.5),forSoendowfrommovementtothe
    structure fromload(one)tothelongfromtherails(2.5)
    located on the sides of the base structure (2).
    Each pillar (1.2) of the load structure (1) is connected through a steel shaft (1 .14) to one of the two ends of its respective base tube (1, 5), and in turn, through the same
    point of attachment between the pillar (1.2) and the base tube (1.5), goes
    also joined by one of its ends, the regulation tube
    angular (1.4), allowing an axis of rotation between these
    structural elements in the same direction as the axis of
    S steel (1.14) that acts as a union.
    The angular adjustment tube (1. 4) at its end
    opposite to the union with the pillar (1.2) and the base tube (1, 5),
    stays attached to the support bar (1.3) through one
    10 of the angular adjustment holes (1.15) made at
    along said bar (1.3), by means of at least one bolt or
    pin (1.16), as and as contemplated in figure 1,
    allowing to regulate the degree of inclination of the pillars
    (1.2) of the load structure (1) depending on the hole
    lS (1. 16) to which said end of the regulating tube fits
    (1.4).
    As can be seen in figure 5 in this example of a
    winch and loader module powered by winch (3),
    twenty shown as it is installed in a vehicle (4) with box
    cargo (4.1), which in this case is a trailer (4). He
    operator after adjusting the structure of the charger module and
    unloader (3) with the same dimensions as the interior
    that the cargo box (4 .1) of the vehicle (4), this is
    2S introduced by the back of said vehicle (4) to
    through the front of the charger and unloader module
    (3), pushing it into the loading area (4.1) of the
    vehicle (4) and while the module (3) advances towards the
    inside, the legs (2.13) are folded until they are
    30 parallel to the floor of the loading area (4. 1) and the module (3)
    completely introduced, to later adjust the
    anchor structure (2. 22) that connects the base structure
    (2) of the charger and unloader module (3) with the chassis (4.2)
    of the vehicle (4) through an inverted T-shaped structural element (2.23) located at the end of said anchoring structure (2.22) and being traversed below the chassis (4.2) preventing the front part of the module from being lifted (3), due to the lever effect generated by the moment of loading weight when it is unloaded or picked up by the rear of the vehicle (4).
    Figure 7 shows the different positions that the load structure (1) can acquire through the rails (2.5) of the base structure (2) by the action of the winch (2.8) indicating the position parallel to the continuous line floor of the load structure (1) for the unloading or collection of heavy objects by the rear of the vehicle (4), and in a broken line the different positions of the load structure (1) until completing its route through the rails (2.5) longitudinally transporting said load to any part of the interior of the vehicle (4).
    As shown in Figure 8, in this example of a winch and loader module driven by winch (3), the transverse movement that can be performed is indicated by simply moving manually the mobile system (2.3) of the winch to the along the jacena (2. 4) where it is subject, which transmits said movement to the mobile system (2. 15) with pulley (2.16) of the base structure
    (2) and to the mobile system (1.10) with pulleys (1. 11) of the load structure (1) through the steel cable (2.20) of the winch (2.8) that connects this whole assembly, and thus, together the longitudinal movement of the cargo structure (1) along the rails (2.5) of the base structure (2), it is allowed to subtract or place the cargo at any point in the cargo area (4.1) of the vehicle (4) ).
    It can be seen in figure 7 of this example or of a module
    loader and unloader (3), a cylindrical body (2.24)
    preferably metallic, jointly and severally connected to the cable
    (2. 20) of the winch in the area near the hook (2.25);
    5 so that the cable (2.20) when picked up by the winch
    (2. 8), the cylindrical body (2.24) comes into contact with the
    locking device (1.12) preferably electronic and
    controlled by remote control that is installed
    around one of the pulleys (1.11) of the structure of
    10 load (1), which catches the cylindrical body (2. 24) to
    then the load structure (1) was unlocked from the rail
    (1) and the winch (2.8) through the cable (2.20) pull
    the load structure (1) generating the displacement of
    this along the rails (2.5). This device
    fifteen electronic (1.12) blocks the end of the cable (2.20) by the
    clamp that creates in the cylindrical body (1.12) so that in
    if the module (3) is loaded, the load is maintained
    suspended in the air held by the hook (2.25) without the
    possibility of rushing uncontrollably on
    twenty vehicle (4).
    As shown in Figure 2, of this example of a
    winch and loader module powered by winch (3)
    comprises on the top of one of the rails (2, 5) of
    ~ the base structure (1) a series of holes (2. 26)
    made at the same distance along said rail
    (2.5), so that when placing the load structure (1) in the
    area where you want to deposit or subtract any cargo
    from the cargo box (4.1) of the vehicle (4), the operator can
    30 insert a bolt into the hole (4. 1) that is between
    the two bearings (1.6) located at the lower end
    of the pillar (1. 2) of the load structure (1) that matches
    with that rail (2.5) and thus produce the blocking of said
    structure (1) at that point of the rail (2.5) to then be able to remotely release the disc body (2. 24) together with the cable (2. 20) of the winch (2. 8) that was anchored in the locking device (1.12), and thus being able to deposit or subtract the desired cargo from the loading area (4.1) of the vehicle (4) making the hook
    (2.25) raise or lower controlled by the winch action
    (2.8).
    As shown in Figure 9, in this example of a loader and unloader module (3) after placing the load structure (1) at the rear end of the rails (2.5) and then fold it forward resting on the base structure ( 2) and then remove the respective bolts (1.16) of each angular adjustment tube (1.14) and folding the support bar (1.3) and the regulation tube
    (1.14) backwards, the load structure (1) is left. The highest part of the base structure (2) is folded forward by the joint through the hinges (2.18) that are located at the lower ends of the pillars
    (2.2) being supported on the load structure (1). The segments (2. 7) located at the front ends of the rail are (2.5) in the form of an arc of circumference protruding from the vehicle (4) fold inward, so that all the highest and protruding parts of the vehicle (4) are collected inside the cargo box (4. 1) so that the module (3) can be transported by road installed in the cargo area (4. 1).
    As can be seen in this example of a winch-loaded loader and unloader module (3) of figure 10 and figure 11 in which it appears folded over itself in width and height, since all the elements
    Structural elements that are located in a transverse position to the loader and unloader module (3) contain in their middle part a joint (2.19) that allows them to be folded, except for the jácena (1. 1) of the structure of S load (1) that the bolt (1.8) must be removed from the joint with one of its pillars (1.2) to be placed parallel to each other and folded over the base structure (2), and the raised structure that is located at the back of the structure base (2) is folded back in height and 10 later folded in width inward as its jacena
    (2.1) is articulated in its half; in this way the module (3) is folded in width and height to occupy less space in the place where it is intended to be stored.
    权利要求:
    Claims (22)
    [1]
    l.-Loader and unloader module operated by winch and adaptable to the vehicle loading area (3) between a loading and unloading position, a transport position and a folding position and is characterized in that said module comprises a base structure (2) rectangular, foldable on itself and extensible in length, width and height which in turn comprises at least one load structure (1) foldable on itself, collapsible and extensible in width, which is connected to the cable (2.20 ) of at least one winch (2. 8) integral to the base structure (2), whereby said loading structure (1) moves by action of the winch (2. 8) along at least two rails ( 2.5) also in solidarity with the base structure (2).
    [2]
    2. Loader and unloader module (3) according to claim 1 comprising at least one joint
    (2.19) in each transverse structural element allowing the folding of said elements.
    [3]
    3. Loader and unloader module according to claim 1 comprising a rail segment (2. 10) for each rail (2.5), located at the rear end thereof and joined together by at least one hinge (2.9) to each rail (2.5) allowing the segment (2.10) to remain in a folded position or in a continuation position with the rail
    (2. 5) increasing its length.
    [4]
    4. Loader and unloader module according to claim 1 comprising a curved rail segment
    (2.7) for each rail (2.5), located at the front end of these and joined together by at least one hinge (2. 6)
    to each rail (2.5), allowing you to acquire a position
    folded to each segment (2.7) or acquire a position in
    then with its rail (2.5) increasing the length of
    East.
    s
    [5]
    5.-Loader and unloader module according to the
    claim 1 comprising rolling bodies (1 .6) in the
    base of the load structure (1) and supported on the rails
    (2. 5) of the base structure (2) allowing the movement of
    10 the load structure (1) along the extent of
    said rails (2. 5).
    [6]
    6. -Loader and unloader module according to the
    claim 1 comprising a support structure
    lS adjustable (1.17) located at the base of the load structure
    (1) in which the pillars (1. 2) of said load structure
    (1) are supported, allowing to adjust the angle of said
    pillars (1. 2) with respect to the rails (2.5) of the
    base structure (1).
    twenty
    [7]
    7.-Loader and unloader module according to the
    claim 1 and 6 comprising at least one pillar (1.2)
    on both sides in the load structure (1) joined by its
    lower end to their respective adjustable structures of
    2S support (1. 17), which allow the pillars (1.2) to be
    They can abat go through their union with them.
    [8 ]
    8. -Loader and unloader module according to the
    claim 1, 6 and 7 comprising at least one jacena
    30 (1.1) located in the load structure (1) And attached to the
    upper ends of both pillars (1.2) of said
    structure (1) for each end of the jacena
    (1.1).
    [9]
    9. -Loader and unloader module according to the
    claims 1 and 8 comprising a mobile system (1. 10) attached to the jacena (1.1) of the load structure (1) 5 moving with a degree of freedom along the length of said jacena (1.1).
    [10]
    10. Loader and unloader module according to claim 1, 8 and 9 comprising at least one pulley 10 (1.11) mounted in solidarity with the mobile system (1.10) of the load structure (1) allowing said pulley assembly (1). 11) can freely rotate concentric to the same point and at the same time be able to move along with the mobile system
    (1. 10) through the extension of the jacena (1.1). fifteen
    [11 ]
    eleven . - Loader and unloader module according to claim 1 comprising at least two pillars (2. 2) located at the rear of the base structure (2) each on both sides of said structure (2) attached
    20 in solidarity with it through its lower ends by at least one hinge (2.18) for each pillar (2.2) that allows them to fold.
    [12 ]
    12. -Loader and unloader module according to the
    Claim 1 and 11 comprising at least one jacena (2.1) joined at its ends to the upper ends of two pillars (2.2) of the base structure (2) raising it to a certain height above said structure (2).
    30 13. - Loader and unloader module according to claim 1 and 12 comprising a mobile system (2.15) attached to the jacena (2. 1) of the base structure (2) moving with a degree of freedom along the extension of said jacena (2.1).
    [14]
    14.-Loader and unloader module according to claim 1, 12 and 13 comprising at least one pulley
    (2.16) mounted in solidarity with the movable system (2.15) of the jacena (2.1) in the base structure (2), allowing said assembly that the pulley (2. 16) can rotate freely
    concentric toasamepointYtothetimepowermove
    next to the system mobile(2.15)tothroughfromtheextension ofthe
    jacena (2.1).
    [15]
    15. Loader and unloader module according to claim 1 comprising at least one jacena (2.4) located at the rear of the base structure (2) And joined at both ends to the rear pillars (2. 11) of the base structure (2) on which the rails are supported
    (2. 5) creating said jácena (2.4) a bridge between them.
    [16 ]
    16. Loader and unloader module according to claim 1 and:! - 5 comprising a mobile system (2. 3) attached to the jacena (2.4) of the base structure (2) moving with a degree of freedom along the extension of said jacena (2.4).
    [17 ]
    17. Loader and unloader module according to claim 1 and 16 comprising at least one winch
    (2.8) jointly and severally connected to the mobile system (2. 3) of the jumper bridge (2.4) of the rear pillars (2.11) of the base structure (2) being able to move along with the mobile system (2.3) along the extension of said jacena (2.4).
    [18]
    18.-Loader and unloader module according to claim 1 comprising at least two legs (2.13) on each side of the base structure (2) joined by an axis, thus allowing them to be folded down when the loader and unloaded module (3) is installed in the cargo area (4.1) of the vehicle (4) in question.
    [19]
    19.-Loader and unloader module according to claim 1 and 18 comprising at least one rolling body (2.21) installed at the lower end of the legs (2.13), allowing these to transfer the loader and unloader module (3) more easily when it is outside the loading area (4.1).
    [20]
    20.-Loader and unloading module according to claim 1, 18 and 19 comprising at least one elastic body (2.14) for each leg (2.13) to allow these to recover their position perpendicular to the ground once the loader and unloader module is uninstalled ( 3) from the cargo area (4.1) of the vehicle (4).
    [21]
    21. Loader and unloader module according to claim 1, 8, 9, 10, 12, 13, 14, 15, 16 and 17 comprising the cable (2.20) of the winch (2.8) joining said winch (2.8) with the pulley (2.16) of the base structure located in its respective mobile system (2.15) and with the pulley (1.11) of the load structure (1) located in its respective mobile system (1.10), which are moved along the extension of their respective jácenas allowing to be able to move the load transversely, thus being able, together with the longitudinal movement of the load structure (1), to reach any point of the loading area (4.1) of vehicle (4) to load or download
    [22]
    22.-Loader and unloader module according to claim 1 and 9 comprising a device (1.12) mounted on the mobile system (1.10) of the load structure
    5 (1) that locks and unlocks the cable (2. 20) from the winch
    (2.8) at the end where the hook (2.25) is located and in turn said structure (1) comprises at least one system
    (2.26) that blocks its movement through the rails (2.5) that together with the simultaneous and joint action with
    10 the device (1 .12), both allow the controlled use of loading and unloading in the vehicle.
    1.11
    Fiq. one
    Fiq. 2
    Fiq. 3
    Fiq. 4
     Fig. S
    [2]
     2.24 "=" - ~ -2.25
     Fig. 6 
     Fiq. 7 
    Fiq. 8
     Fig. 9 
    Fig. 10
    Fig. 11
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US916324A|1908-05-27|1909-03-23|William Edwin Kastendike|Truck.|
    DE3824907A1|1988-07-22|1990-01-25|Wilhelm Schwarz|Load-moving device for installing in motor vehicles|
    DE8911830U1|1989-10-04|1989-12-07|Verschoor, Jacob Cornelies, Zevenbergen, Nl|
    GB2245243A|1990-05-05|1992-01-02|Glynne Boston|Loading or unloading vehicles|
    US5743702A|1996-05-03|1998-04-28|Gunderson; Michael J.|Method and apparatus for a vehicle mounted hoisting system|
    US20040177441A1|2001-05-03|2004-09-16|Ronne Gert S|Hoist for hoisting or transferring mobility impaired persons|
    GB2387832A|2002-04-26|2003-10-29|Niko Ltd|Vehicle mounted lifting mechanism|
    US7465144B1|2004-01-15|2008-12-16|Studer Ronald M|Adjustable winch and pulley system|
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    ES201600881A|ES2663904B1|2016-10-17|2016-10-17|Loader and unloader module powered by a winch adaptable to the vehicle loading box|ES201600881A| ES2663904B1|2016-10-17|2016-10-17|Loader and unloader module powered by a winch adaptable to the vehicle loading box|
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