• 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 pallet for stacking Christmas trees is described. The pallet includes: two or more bottom beams; several supported boards supported by and attached to the base beams as well as several side boards each attached to the end piece of one of the base beams. The side boards extend substantially perpendicular to the bottom beams and to the supported boards. The bottom beams comprise a connecting board supported by a wider bottom board.
    公开号:DK201500272A1
    申请号:DKP201500272
    申请日:2015-05-06
    公开日:2016-04-11
    发明作者:Jesper Petersen
    申请人:Skoventreprenør Jesper Petersen;
    IPC主号:
    专利说明:

    Pallet for Christmas trees
    Description
    FIELD OF THE INVENTION
    The present invention relates to a pallet for stacking Christmas trees. The pallet can also be used for storing and packing Christmas trees, as well as as a Christmas tree pallet designed to receive and store Christmas trees that are wrapped in nets and compressed in order to get the Christmas trees to fill as little as possible and thus optimize the capacity of the pallet.
    BACKGROUND OF THE INVENTION
    It is known to pack Christmas trees on special transport pallets (also called Christmas tree pallets) which include a frame on which are mounted six parallel boards mounted upwards from the frame. The frame consists of three parallel bottom beams (or beams) on which are attached seven supported boards forming a load surface.
    Since the side boards are attached to the frame via the end pieces of the bottom beams, it is required that the bottom beams are made of timber (wood) of such a width that the bottom beams do not crack when the side boards are screwed into the end faces of the bottom beams. The existing pallets are therefore relatively heavy and expensive to manufacture.
    From DK 175423 DK a pallet with side holders is known for use in the packing of Christmas trees. The pallet has a number of sprays and a number of perpendicular to these loading boards. The side holders are perpendicular to both straws and boards.
    It is therefore desirable to provide a lighter pallet which is also cheaper to manufacture.
    When using the existing pallets on soft ground (for example in a forest floor), there is a risk that the side boards will get stuck in the ground when the pallet is loaded with trees and therefore sink into the ground.
    Thus, it is desirable to be able to provide a pallet where the risk of side boards being destroyed as a result of contact with the substrate and the subsequent lifting of the pallet can be reduced or eliminated.
    It is further desirable to be able to stack Christmas tree pallets in order to limit the area to be used to store Christmas trees so that more Christmas trees can be stored in a given area.
    The object of the invention
    The object of the present invention is to provide a lighter pallet which is cheaper to manufacture.
    It is further an object of the present invention to provide a pallet where the risk of side boards being destroyed as a result of contact with the substrate and the subsequent uplift of the pallet can be reduced or eliminated.
    It is a further object of the present invention to provide a pallet which can be stacked to limit the area to be used to store Christmas trees so that more Christmas trees can be stored in a given area.
    The object of the present invention is achieved with a pallet as defined in claim 1. Preferred embodiments are defined in the subclaims, explained in the following description and illustrated in the accompanying figures.
    The pallet according to the invention is a pallet for stacking Christmas trees, comprising: - two or more bottom beams, - several supported boards supported by and attached to the bottom beams, - several side boards each attached to the end piece of one of the bottom beams. , wherein the side boards extend substantially perpendicular to the bottom beams and on the supported boards, the bottom beams comprising a connecting board supported by a wider bottom board.
    This makes it possible to reduce the thickness of the bottom beams. By using a connection board narrower than the bottom beams of the traditional Christmas tree pallets, it is possible to reduce the volume of the bottom beams and thus the amount of wood used to manufacture the pallet.
    The pallet according to the invention can be used for packing and / or stacking Christmas trees. It can replace the traditional Christmas tree pallets (transport pallets).
    Two or more bottom beams are used, e.g. three bottom beams supporting multiple supported boards attached to the bottom beams.
    For example, seven supported boards can be used. It is of course possible to use more or less supported boards, e.g. 4, 5, 6, 8 or 9.
    The pallet comprises several side boards, each attached to the end piece by one of the bottom beams. The side boards can advantageously be removably mounted so that they can be removed and mounted as needed.
    The side boards extend, essentially, perpendicular to the bottom beams and on the supported boards. The side boards will thus extend vertically if the frame consisting of the bottom beams and those on mounted supported boards is horizontally oriented.
    The bottom beams comprise a connecting board supported by a wider bottom board. The connection board may e.g. have a cross-section of 47 mm x 75 mm. The motherboard can e.g. have a cross section of 19 mm x 75 mm. In comparison, traditional Christmas tree pallets have bottom beams with dimensions of 75 mm x 100 mm.
    The wood can be planed or non-planed, impregnated or non-impregnated as needed.
    It may be an advantage that the pallet comprises three bottom beams extending parallel and perpendicular to the supported boards. In this way, the pallet is similar to traditional Christmas tree pallets and traditional machines (eg a pallet packer) can be used.
    It may be advantageous that the bottom beams and / or the supported boards are oriented in parallel. This ensures that the distance between adjacent bottom beams and / or supported boards is the same.
    It may be advantageous for the side boards to comprise an upper portion and a lower portion, the upper portion being wider than the lower portion. Hereby it is possible to provide side boards having the required strength and dimension in the upper part and at the same time adapted to the narrow design of the lower part, so that the lower part is not exposed to collision risk in connection with collision.
    It may be advantageous for the side boards to be attached to the outermost supported board. This makes it possible to reduce the number of screw holes in the narrow lower part of the side boards. Thus, it is possible to provide only one hole in the narrow lower portion of the side boards, the side boards being secured to the outermost supported board. It may be advantageous that the outermost supported board on each side is thicker than the supported boards in traditional Christmas tree pallets, in order to reduce the risk of the outermost supported board splitting in connection with attaching side boards to the outermost supported board.
    It may be advantageous that the outermost supported boards are thicker than the other supported boards. This reduces the risk that the outermost supported board will break in connection with attaching side boards to the outermost supported board, and at the same time it is possible to minimize the volume of wood to be used for pallet production.
    It may be advantageous to have a top bar attached to the distal (upper free) end of each side board. Thus, it is possible to stack several pallets on top of one another in order to limit the area to be used for storing Christmas trees. This allows more Christmas trees to be stored in a given area.
    It may be advantageous for the top beams to be attached to a side board on each of the two longest outer surfaces of the pallet. This results in a strong and stable construction.
    It may be advantageous for the top beams to be removably attached to the side boards so that the top beams can be removed and mounted as needed.
    It may be advantageous to provide in each top beam a longitudinal groove adapted to receive a bottom board and thereby restrict the movement of the bottom board in the longitudinal direction of the pallet. This makes it possible to ensure a stable stacking of pallets on top of one another. The upper pallet can easily and quickly be placed in said groove, which facilitates fixation in the longitudinal direction of the pallet and at the same time enables quick and easy removal of the upper pallet.
    It may be advantageous for the side boards to be arranged such that a distance from the underside of the pallet to the distal end of the lower part of the side boards is provided. This prevents the side boards from sticking to the substrate and being destroyed when the pallet is lifted from the substrate.
    It may be advantageous to provide a plurality of holes in the side boards, the holes being arranged for attaching the side boards to the outermost supported boards. Hereby it is possible to provide a quick, easy and correct positioning and fastening of the side boards in the outermost supported boards.
    It may be an advantage that two holes are provided in the side boards, the holes being arranged for attaching the side boards to the outermost supported boards.
    It may be advantageous to have corresponding holes provided in the connecting boards and in the outermost supported boards.
    It may be an advantage that a number of holes are provided in the side boards, the holes being arranged for attaching the side boards to preferably the central part of the connecting boards.
    By making sure that the holes are provided for fixing in the central part of the connecting boards, the risk of the connecting boards being stained as a result of the fixing (screw-in) is minimized.
    It may be an advantage that one (and only one) centrally located hole is provided in the side boards, which hole is arranged for attaching the side boards to the central portion of the connecting boards. This reduces the risk of tearing the connecting boards in connection with screwing in the screw.
    It may be advantageous that holes are provided at the upper distal end of the side boards through which a cord can be secured which can be attached to side boards attached to the opposite side of the pallet. Thus, movement of the upper and distal end of the side boards in a horizontal direction can be restricted.
    Figure Description
    The invention will be explained in the following with reference to the accompanying drawing, in which
    FIG. Figure 1A shows a schematic perspective view of a traditional Christmas tree pallet,
    FIG. 1B shows the one shown in FIG. 1A is a side view of the Christmas tree pallet,
    FIG. 1C shows the one shown in FIG. 1A and FIG. 1B, the Christmas tree pallet shown diagonally from below,
    FIG. Figure 2A is a side view of a schematic illustration of a pallet according to the invention;
    FIG. 2B shows a schematic perspective view of the one shown in FIG. Figure 2A is a bottom view,
    FIG. 2C is a close-up view of the proximal end of a side board according to the invention,
    FIG. Figure 3A is a schematic end view of a pallet according to the invention;
    FIG. 3B shows a close-up of the two outermost supported boards from the one shown in FIG. 3A pallet,
    FIG. Figure 4A shows a schematic perspective view of a pallet according to the invention in a configuration where no side boards are attached yet;
    FIG. Figure 4B shows a schematic view of a pallet according to the invention in a configuration where Christmas trees are stacked on the pallet,
    FIG. Figure 5A is a schematic perspective view of a pallet according to the invention,
    FIG. 5B shows a schematic illustration of two pallets of the type shown in FIG. 5 A, where the pallets are stacked on top of one another.
    FIG. 6A shows a schematic perspective view of a pallet according to the invention and
    FIG. 6B shows a schematic illustration of two pallets of the type shown in FIG. 6 A, where the pallets are stacked on top of one another.
    Detailed description
    Initially, it should be noted that the attached drawings illustrate non-limiting embodiments only. A variety of other embodiments will be possible within the scope of the present invention. In the following, similar or identical elements in the various embodiments will be denoted by the same reference numeral.
    FIG. 1A shows a schematic perspective view of a traditional Christmas tree pallet 12. FIG. 1B shows the one shown in FIG. 1A is a side view of the Christmas tree pallet 12, while FIG. 1C shows the one shown in FIG. 1A and FIG. 1B, the Christmas tree pallet 12 shown diagonally from below.
    The Christmas tree pallet 12 consists of three parallel bottom beams 4, 4 ', 4 "with a thickness T. Seven parallel supported boards 8, 8' are attached to the three bottom beams 4, 4 ', 4". To each end of the three bottom beams, a vertical oriented side board 10 is attached.
    As shown in FIG. 1 C, the vertically oriented side boards 10 are attached to the end faces of the three bottom beams. To prevent the bottom beams from leaking in connection with attaching the vertically oriented side boards 10 to the bottom beams 4, 4 ', 4 ", the bottom beams are required (i.e., the thickness T is large). This makes it expensive to manufacture the traditional pallets 12.
    In connection with the use of the traditional pallets 12, there is a risk that the distal portion D of the vertically oriented side boards 10 is partially lowered into the substrate when the pallets are placed on soft or wet substrates. Thus, there is a risk that the distal portion D of the vertically oriented side boards 10 will be stuck and thus damaged when the pallet 12 is lifted.
    FIG. 2A shows a schematic side view of a pallet 2 according to the invention, while FIG. 2B shows a schematic perspective view of the one shown in FIG. 2A shows pallet 2 seen from below. FIG. 2C shows a close-up view of the proximal end of a side board 10 according to the invention.
    The pallet 2 comprises three bottom beams 4, each consisting of a connecting board 6 and a bottom board 6 ', where the connecting board 6 is supported and attached to the bottom board 6'. By ensuring that the bottom board 6 'has the same support area as the traditional Christmas tree pallets, it is ensured that the pallet 2 has the same ability to counteract immersion in the substrate as the traditional Christmas tree pallets. In practice, this is ensured by making sure that the length and width of the bottom board 6 'corresponds to the length and width of the bottom beams of the traditional Christmas tree pallets. The width can e.g. be 75 mm.
    By using a connection board 6 narrower than the bottom beams of the traditional Christmas tree pallets, it is possible to reduce the volume of the bottom beams 4 used for the pallet 2 according to the invention, relative to the volume of the bottom beams of the traditional Christmas tree pallets. Traditional Christmas tree pallets often use bottom beams with a cross-sectional area of 75 mm x 100 mm corresponding to 75 cm2. By replacing the traditional bottom beams with bottom beams 4 as shown in FIG. 2 B it is possible to reduce the cross-sectional area of the lower beams to: 19 mm x 75 mm + 47 mm x 75 mm corresponding to 49.5 cm2. Thus, it is possible to reduce the cost of the bottom beams. Hereby it is possible to provide a pallet 2 which is considerably cheaper to manufacture than the previously known Christmas tree pallets (see Fig. 1).
    The three bottom beams 4 extend in parallel and are spaced apart. On the three bottom beams 4, seven supported boards 8, 8 'are provided. The seven supported boards 8, 8 'are evenly distributed along the length of the three bottom beams 4. Thus, the seven supported boards 8, 8' extend transversely (perpendicularly) to the three bottom beams 4 to which they are attached. .g. screws, nails or clamps.
    The five middle supported boards 8 are surrounded by two outer (peripheral) supported boards 8 ', which may advantageously be thicker than the middle supported boards 8. Thus, it is possible to attach side boards 10 to the outer supported boards 8' e.g. . with screws, without the risk of the outermost supported boards splitting 8 '.
    It may be advantageous to reduce the thickness of the five middle supported boards 8 in order to reduce the weight and production cost of the pallet. The five middle supported boards 8 may e.g. have a thickness of 19 mm, while the two outermost supported boards 8 'may have a thickness of 25 mm.
    The side boards 10 comprise an upper portion 18 and a lower portion 16. The lower portion 16 is tapered and truncated so that the side boards 10 do not contact the substrate unless the pallet 2 sinks far into the substrate. In the embodiment shown in FIG. 2, the distance from the proximal end of the lower portion 16 of the side boards 10 to the underside of the bottom boards 6 'corresponds to the thickness of the bottom boards 6'. The thickness of the bottom boards 6 'may be 19 mm. It is possible to shorten the lower part 16 such that the distance from the proximal end of the lower part 16 of the side boards 10 to the underside of the bottom boards 6 'is greater, e.g. 2 mm larger than the thickness of the bottom boards 6 '.
    The tapered portion of the lower portion 16 of the side boards 10 has a width L-ι which is less than the width l_2 of the upper portion 18 of the side boards 10. The width L1 of the lower portion 16 of the side boards 10 may correspond to the width of the connecting boards 6 Optionally, the width Li of the lower portion 16 of the side boards 10 may be increased (e.g., 1-5 mm) relative to the width of the connecting boards 6.
    A central hole 14 is provided in the lower part 16 of the side boards 10 through which the lower part 16 of the side boards 10 can be secured to the connection board 6 by means of a screw (not shown). Since only one screw needs to be screwed into the (central portion of) connector board end surface, it is not necessary to use bottom beams 4 which are the same width as those used for the traditional Christmas tree pallets.
    Two holes 14 'are provided at the proximal end of the upper end 18 of the side boards 10. These holes 14 'are arranged symmetrically around the longitudinal axis X of the side boards. The side boards 10 can be secured to the outermost supported board 8' by means of screws (not shown) inserted through these holes 14 '.
    The length of the side boards 10 can be varied as required. In FIG. 2A and FIG. 2B, it is seen that the side boards 10 extend perpendicularly to both the three bottom beams 4 and the seven supported boards 8, 8 'provided on top of the three bottom beams 4.
    FIG. 3A is a schematic end view of a pallet 2 according to the invention. The pallet 2 corresponds to that of FIG. 2. The pallet 2 comprises an outer bottom beam 4. On top of the bottom beam 4, seven supported boards 8, 8 'are provided which are attached to the bottom beam 4. The five middle supported boards 8 are slightly thinner (smaller height) than the two outer supported boards. 8 '. This is shown in more detail in Figs. 3 B.
    The bottom beam 4 consists of a bottom board 6 'which supports a narrower and higher connection board 6 to which the supported boards 8, 8' are attached. The bottom board 6 'and the connecting board 6 are attached to each other (eg by means of screws or nails).
    Side boards 10 are attached to the two outermost supported boards 8 'and to the end boards of the connecting board, respectively. The proximal end of the upper portion 18 of the side boards 10 is secured to the outermost supported board 8 ', while the lower portion 16 of the side boards 10 is secured to the connecting board 6 by means of a screw (not shown).
    FIG. 3B shows a close-up of the two outermost supported boards from the one shown in FIG. 3A shows pallet 2. It is seen that the height H2 of the outermost supported board 8 'is greater than the height Hi of the second-most supported board 8. The outermost supported board 8' has a greater height H2 than the height Hi of the second-most supported board. 8, because the outermost supported board 8 'must be able to receive a screw for securing a side board 10 without tearing. By reducing the height Hi of the second most supported board 8 (and the other four supported boards whose end surfaces should not receive screws) it is possible to reduce the cost of manufacturing the pallet 2.
    It can be seen in FIG. 3 B, that the side board 10 is spaced at a distance H3 from the bottom of the bottom board 6 '. Thus, it is ensured that the sideboard 10 is not stuck in the substrate if the pallet sinks into the substrate. Thus, it is possible to reduce the number of side boards 10 which are destroyed as a result of contact with the substrate and as a result of the lifting of pallets that '' get stuck '' in the substrate.
    FIG. 4A shows a schematic perspective view of a pallet 2 according to the invention in a configuration where no side boards 10 are yet attached. When the side boards 10 are attached to the remaining part of the pallet 2, the side boards 10 extend substantially in a vertical direction, thus that the longitudinal axis X of the side boards is vertically oriented.
    The lower portion 16 of the side boards 10 is '' tapered 'and has the same width as the connecting boards 6. Pre-drilled holes may be provided in the connecting boards 6 and in the outermost supported boards 8'. In this way it can be made easier to position the side boards 10 correctly so that the holes in the lower part 16 and the proximal part 18 of the side boards 10 correspond to the holes provided in the connecting boards 6 and in the outer supported boards 8 '.
    FIG. Fig. 4B shows a schematic view of a pallet 2 according to the invention in a configuration where Christmas trees 20 are stacked on the pallet 2. The pallet 2 comprises three bottom boards 6 'resting on a base 22. The bottom boards 6' constitute the lower part of the bottom beams. comprising, in addition to the bottom boards 6 ', a connecting board (not shown) attached to the bottom boards 6', on which are supported boards 8, 8 ', supported by the Christmas trees 20. The Christmas trees 20 are held in place (horizontally) by side boards 10 attached to the connecting boards and / or outermost supported boards 8 '.
    Holes 24 are provided at the upper distal end of the side boards 10 through which a cord can be secured which can be secured to side boards 10 attached to the opposite side of the pallet (not visible in Fig. 4B). Thereby, it can be ensured that movement of the upper and distal end of the side boards 10 in a horizontal direction is restricted.
    FIG. Figure 5A shows a schematic perspective view of a pallet 2 according to the invention. The one shown in FIG. 5A pallet 2 is a so-called '' double pallet '2 configured to be stacked on top of a corresponding pallet, as illustrated in FIG. 5 B.
    The pallet 2 comprises a frame consisting of three parallel oriented bottom beams 4, consisting of a bottom positioned bottom board 6 ', on top of which is attached a connecting board 6 which is narrower than the bottom board 6'. The frame further consists of two outer supported boards 8 'and a plurality of intermediate supported boards 8 disposed therebetween.
    On each of the two longest outer sides of the frame are attached three side boards 10 screwed into the connecting boards 6 and the outer supported boards 8 ', respectively. The side boards 10 extend vertically and a top beam 26 is secured to the distal end of each side board 10. The top beams 26 are attached to a side board on each of the two longest outer sides of the frame.
    A longitudinal groove 28 is provided in each top beam 26 for receiving a bottom board 6 'and limiting the movement of the bottom board in the longitudinal direction Y of the pallet.
    The height h of the pallet is approximately half the height of the pallet shown in Figs. 4. Thus, two pallets 2, when stacked on top of each other, will form a '' double pallet 'of substantially the same height as that of FIG. 4.
    FIG. 5B shows a schematic illustration of two pallets 2, 2 'of the type shown in FIG. 5 A. The pallets 2, 2 'are stacked on top of each other and therefore constitute a' 'double pallet'. The upper pallet 2 'is positioned on top of the lower pallet 2. The bottom pallets 6' of the upper pallet are located in the grooves in the top pallets 26 of the lower pallet.
    "Double pallets" 2, 2 "of the type illustrated in FIG. 5A and in FIG. 5 B can be used to deliver Christmas trees to customers who do not need a regular pallet (with about twice the capacity). In principle, more than two pallets 2, 2 'can be stacked on top of one another. It is possible to reinforce the pallet parts, including e.g. the side boards 10.
    If desired, pallets of the type shown in FIG. 4, is equipped with top beams 26 corresponding to the type illustrated in FIG. 5 B. This enables the pallets to be stacked so that more Christmas trees can be stored in a smaller area.
    FIG. 6A shows a schematic perspective view of a pallet 2 according to the invention. The one shown in FIG. 6A pallet 2 is a '' double pallet '2, similar to the pallet illustrated in FIG. 5. The pallet 2 is thus configured to be stacked on top of a corresponding pallet, as illustrated in FIG. 6 B.
    The pallet 2 comprises a frame consisting of three parallel bottom beams 4, which comprises a bottom bottom board 6 ', on top of which is attached a connecting board 6 which is narrower than the bottom board 6'. The frame further consists of two outer supported boards 8 'and a plurality of intermediate supported boards 8 disposed therebetween.
    On each of the two longest outer sides of the frame are attached three side boards 10 screwed into the connecting boards 6 and the outer supported boards 8 ', respectively. These side boards 10 are thicker and wider than those of FIG. 5 side boards. This increases the strength and ability of the pallet to receive a pallet 2 'placed on top of the pallet 2 (see Fig. 6 B). The side boards can, for example. made in 30 x 100 mm wood.
    The side boards 10 extend in a vertical direction when the pallet 2 is on a horizontal surface. A top beam 26 is attached to the distal end of each side board 10. The top beams 26 are attached to a side board on each of the two longest outer sides of the frame.
    A longitudinal groove 28 is arranged in each top beam 26 which is adapted to receive a bottom board 6 'and thus limit the movement of the bottom board in the longitudinal direction Y.
    The height h of the pallet corresponds approximately to half the height of the pallet shown in Figs. 4. Two pallets 2, 2 'will therefore, when stacked on top of each other, form a' 'double pallet' of substantially the same height as that of FIG. 4.
    FIG. 6B shows a schematic illustration of two pallets 2, 2 'corresponding to the pallet 2 shown in FIG. 6 A. The pallets 2, 2 'are stacked on top of each other and therefore constitute a' 'double pallet'. The upper pallet 2 'is positioned on top of the lower pallet 2. The bottom pallets 6' of the upper pallet are located in the grooves in the top pallets 26 of the lower pallet.
    Reference number 2.2 'Pallet 4, 4', 4 ”Bottom bar 6 Connection board 6 'Bottom board 8, 8' Supported board 10 Side board 12 Pallet 14.14 'Hole 16 Lower part 18 Upper part 20 Christmas tree 22 Underlayment 24 Hole 26 Top beam 28 Tracks D Distal end T Thickness
    Li, l_2 Width
    Hi, H2, Hs Height X Longitudinal axis Y Longitudinal axis
    权利要求:
    Claims (10)
    [1]
    A pallet (2, 2 ') for stacking Christmas trees (20), said pallet (2, 2') comprising: - two or more bottom beams (4), - several supported boards (8, 8 ') supported of and attached to the bottom beams (4), - several side boards (10) each fixed to the end piece by one of the bottom beams (4), the side boards (10) extending substantially perpendicular to the bottom beams (4) and on the supported boards (8, 8 '), characterized in that the bottom beams (4) comprise a connecting board (6) supported by a wider bottom board (6').
    [2]
    Pallet (2, 2 ') according to claim 1, characterized in that the side boards (10) comprise an upper part (18) and a lower part (16), the upper part (18) being wider than the lower part ( 16).
    [3]
    Pallet (2, 2 ') according to claim 1 or claim 2, characterized in that the side boards (10) are attached to the outermost supported board (8').
    [4]
    Pallet (2, 2 ') according to one of the preceding claims, characterized in that the outermost supported boards (8') are thicker than the other supported boards (8).
    [5]
    Pallet (2, 2 ') according to one of the preceding claims, characterized in that a top beam (26) is attached to the distal end of each side board (10).
    [6]
    Pallet (2, 2 ') according to claim 5, characterized in that the top beams (26) are attached to a side board (10) on each of the two longest outer sides of the pallet (2, 2').
    [7]
    Pallet (2, 2 ') according to claim 5 or claim 6, characterized in that in each top beam (26) a longitudinal groove (28) is provided for receiving a bottom board (6') and thereby limiting the movement of the bottom board. in the longitudinal direction (Y) of the pallet.
    [8]
    Pallet (2, 2 ') according to one of the preceding claims, characterized in that the side boards (10) are arranged such that a distance (H3) is provided from the underside of the pallet to the distal end of the lower part (16). ) of the side boards (10).
    [9]
    Pallet (2, 2 ') according to one of the preceding claims, characterized in that a plurality of holes (14') are provided in the side boards (10), which holes (14 ') are arranged for securing the side boards (10). ) in the outermost supported boards (8 ').
    [10]
    Pallet (2, 2 ') according to claim 9, characterized in that a number of holes (14) are provided in the side boards (10), which holes (14) are arranged for attaching the side boards (10) to preferably the central part of the connecting boards (6).
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    同族专利:
    公开号 | 公开日
    DK178473B1|2016-04-11|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3827353A|1973-04-12|1974-08-06|Yule Tree Farms|Christmas tree baling machine|
    DE2516108C3|1975-04-12|1979-11-22|Fritz 4300 Essen Klawitter|Transport pallet|
    DK172068B1|1996-09-30|1997-10-13|Claus Thomsen|Pallet with side supports and use|
    DK175423B1|1998-06-15|2004-10-11|Lars Overgaard|Side and top teams as well as their use|
    US20040187745A1|2003-03-26|2004-09-30|Jaime Rojas|Fiberboard pallet|
    DE102005054865A1|2005-08-01|2007-02-22|Deutsche Rockwool Mineralwoll Gmbh + Co Ohg|Pallet for transporting stacks of boards from insulation boards|
    DE102005054864A1|2005-08-01|2007-02-15|Deutsche Rockwool Mineralwoll Gmbh & Co. Ohg|Packaging and / or transport unit for plate-shaped insulating elements|
    CN201626584U|2009-12-31|2010-11-10|厦门汇丰盛工贸有限公司|Forklift pallet structure|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DKPA201500272A|DK178473B1|2015-05-06|2015-05-06|Pallet for Christmas trees|DKPA201500272A| DK178473B1|2015-05-06|2015-05-06|Pallet for Christmas trees|
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