The present invention relates to a pallet structure, and more particularly to a partly replaceable plastic pallet structure, which can carry a light or heavy weight
Pallets are very common auxiliary tool in cargo transportation. A conventional pallet is a base similar to a platform, formed by nailing a plurality of interlaced wood strips or boards together; the top thereof is a mounting face for the placement of goods, and there are foot pieces below the mounting face to elevate the mounting face to allow goods placed on the mounting face to be kept off the ground, preventing the goods, which are otherwise too close to the ground, from being made wet, or being contaminated by pollutants on the ground.
The great majority of pallets available in the market currently are wood, paper, plastic and ferrous alloy pallets. The wood pallet is most widely used of these, but because the whole structure thereof is assembled from wood, a large amount of wood must be cut down before a certain amount of wood pallets can then be made; this is not congruent with environmental protection aims. Furthermore, the entirety of the wood pallet is fixed, so the whole wood pallet must be discarded as junk if even one part is damaged. In addition, the size of an assembled wood pallet is fixed; it cannot be folded for storage, and uses space inefficiently.
Similarly, since a pallet such as a paper, plastic or iron alloy pallet is limited by the weight it can bear that the other, the entire must be discarded as junk if the goods it carries are overweight, causing damage to even one part of the pallet; this is a waste of natural resources.
To improve a pallet structure, increase usage convenience, and obtain a good bearing capacity, the present invention is proposed.
The present invention proposes a plastic pallet structure that can carry light or heavy weight goods and is partly replaceable, including a plurality of horizontal and vertical bases; each horizontal base includes a basic portion, including a plurality of opening retaining portions, extension portions, arch bridge portions and first and second supporting portions, where a three-dimensional mesh supporting structure is used to couple to each portion to form a three-dimensional base. Each vertical base is formed by means of plastic extrusion, including a basic portion, where the basic portion includes a plurality of opening clamping portions, extension portions, arch bridge portions, first and second supporting portions, where a three-dimensional mesh supporting structure is used to couple to each portion to form a three-dimensional base.
The plurality of horizontal bases and vertical bases are respectively cross linked together in horizontal and vertical directions at each opening clamping portion by means of opening-to-opening to form a plastic pallet with the plurality of horizontal bases and vertical bases. The opening clamping portion is preset with a slide-in slot.; a cut line is reserved on the slide-in slot; a buckling element or tenon is preset along a joint of the cut line, allowing the two differently directional opening clamping portions to be slipped in each other along the slide-in slot, and locked by the buckling elements while two openings are respectively arrived at fixed positions, thereby bucking the horizontal and vertical bases to each other tightly. The slide-in slot has a certain elasticity due to the disposition of the cut line, allowing the buckling elements to be released easily while being separated, thereby forming a plastic pallet capable of being combined and detached.
The arch bridge in the present invention is a bow-typed body formed by contracting one basic portion gradually inward between the two adjacent extension portions, allowing the forks of a forklift to be inserted. Both the horizontal and vertical bases have arch bridge portions for the forks of a forklift to be inserted; it is convenient for the forks to be inserted into the pallet in every direction. Forces acted on the arch bridge portion can be uniform, due to the disposition of the extension portions, so the base is not easily fractured.
The present invention also proposes a mesh-typed structure body, which is a three-dimensional mesh-typed structure of sheet body group formed by molding a soft plastic material into a mechanical structure intersected by means of X, Y, E and trapezoid structures, which generates stresses and is formed solidly to couple to each section.
The present invention further proposes a plastic pallet structure for a heavy load, including a plurality of horizontal and vertical bases, each horizontal base includes a basic portion, including a plurality of opening clamping portions, extension portions, arch bridge portions, a first supporting portion and a second supporting portion; in addition, it also includes a beam column passed through the base and a three-dimensional mesh-typed supporting structure coupled to each section.
The present invention also includes a plurality of vertical base; each vertical base includes a basic portion, including a plurality of opening clamping portions, extension portions, arch bridge portions, a first supporting portion and a second supporting portion. In addition, it also includes a beam column passed through the base and a three-dimensional mesh-typed supporting structure coupled to each section, where the three-dimensional mesh-typed supporting structure is made by plastic extrusion, formed into a combined sheet body group by means of X, Y, E, and trapezoid structures and the like to couple the all sections together to form the base.
Furthermore, the horizontal base and the vertical bases are engaged with each other diagonally and vertically through the corresponding opening clamping portion opening-to-opening, thereby combing the plurality of horizontal and vertical bases to form a plastic pallet with bidirectional beam columns included of the plurality of bases.
If the material of the beam column is the same as the other parts, the beam column can be integrated with the base, extension portion, arch bridge portion by means of extrusion, allowing the three-dimensional mesh-typed supporting structure and the beam column to be bonded tightly into one body like the trunk and the branches of a tree. A material other than the material of other parts may also be used as the beam column, such as metal, the beam needed may be installed in the base afterwards as long as an accepting space is formed at beam column placing points of each base in advance; for example, a circular hole, which is parallel to the opening clamping portions and passed through the base is opened. Consequently, the plastic pallet having the overlapping beam columns and capable of bearing a heavy weight can be formed after having the opening clamping portion, the slide-in slot in the opening clamping portion, the buckling element in the slipping-slot, the extension portions and arch bridge portions of the base, the supporting formed by coupling the mesh-typed structure body to every section, and the combination of the plurality of bases.
The present invention can increase the bearing capacity of a plastic pallet, avoid structural fractures or damage to buckling elements, replace parts quickly when a part is damaged, avoid the waste of resources, and further conform to environmental protection aims; saving energy, and reduce waste.
The present invention can be more fully understood by reference to the following description and accompanying drawings, in which:
Please refer to
Please refer to
The plastic pallet structure of the present invention includes a supporting base and a plurality of loading plates 30. The supporting base includes a plurality of first bases 10a and a plurality of second bases 10b. The first bases 10a are aligned along a first direction. Here, the first direction is the X-axis direction. Each first base 10a includes a first base body, a plurality of first opening clamping portions 131 and a plurality of first arch bridge portions 181. The first opening clamping portions 131 are disposed on a first long side edge 101 of the first base body. The first arch bridge portions 181 are disposed on another first long side edge 102 of the first base body and are spacingly aligned between the first opening clamping portions 131. The second bases 10b are aligned along a second direction. Here, the second direction is the Y-axis direction. Each second base 10b includes a second base body, a plurality of second opening clamping portions 132 and a plurality of second arch bridge portions 182. The second opening clamping portions 132 are disposed on a second long side edge 103 of the second base body. The second arch bridge portions 182 are disposed on the second long side edge 103 of the second base body and are spacingly aligned between the second opening clamping portions 132. Moreover, the second opening clamping portions 132 are engaged with the first opening clamping portions 131 so as to combine the second bases 10b with the first bases 10a. The loading plates 30 are engaged on the first base 10a and aligned between the second bases 10b along the second direction. A width W1 of the loading plates 30 along the second direction is larger than a width W2 of the second bases 10b. Each loading plate 30 includes a connecting portion 301 abutted against the first base body so as to limit the movement of the loading plate 30 along the first direction. When the loading plates 30 load goods, forks of a forklift are inserted in to the second bases 10b, so that the forks of the forklift are abutted against the second arch bridge portions 182 without contacting with the loading plates 30 to lift the goods up.
A thickness T1 of the loading plates 30 along a third direction is smaller than a thickness T2 of the second arch bridge portions 182. The third direction is perpendicular to the first direction and the second direction. Here, the third direction is the Z-axis direction.
The first base 10a approximately is a bar-typed rectangular sheet body structure, and may preferably be made from PE, PP or plastic synthetic material. The first base 10a has the basic portion 11, where the basic portion 11 has a plurality of first opening clamping portions 131 arranged intervally. In the present embodiment, the number of the first opening clamping portions 131 preferably is 3, but the present invention is not limited to this number; the number of the first opening clamping portions 13 may be increased or decreased depending on a user's need. The shape of the first opening clamping portion 131 and the second opening clamping portion 132 aims at allowing the first bases 10a and the second bases 12b to engage with each other opening-to-opening, the outlook thereof approximately is rectangular, and the inside thereof is disposed with an opening so the opening-to-opening rectangles can clamp each other. Furthermore, a first slide-in slot 13a may additionally be disposed inside the first opening clamping portion 131 and a second slide-in slot 13b may additionally be disposed inside the second opening clamping portion 132, allowing the second opening clamping portion 132 to be coupled to the first slide-in slot 13a via the second slide-in slot 13b so as to connect the first bases with the second bases.
The first slide-in slot 13a or the second slide-in slot 13b may include a triangular slip slot, but the present invention is not limited to this.
As shown in
Additionally, the arch bridge portions 18 (the first arch bridge portions 181 or the second arch bridge portions 182) contracted into a bow shape are disposed in the basic portion 11, and each of them is formed between the two adjacent extension portions 17, thereby allowing the forks of a forklift to be inserted in the plastic pallet conveniently in a horizontal or vertical direction. In addition, the intersection of the two bases (the first bases 10a and the second bases 10b) forms a cross, providing a solid weight-carrying base.
In the present embodiment, the first supporting portion 16 and the second supporting portion 16a are respectively formed to a mesh-typed structure body; upper, lower, left, right three-dimensional supporting groups are formed by coupling them to each section of the first base 10a and the second base 10b by means of X, Y, E, M, trapezoid, rectangle structures and a group of the combination thereof so as to form a steel-structured structure body capable of carrying a heavy weight, allowing the plastic pallet to be lightweight and still have a good bearing capacity, and allowing a damaged base to be detached easily for replacement, while the plastic pallet maintains its original functions instead of discarding the entire, thereby enabling environmental protection by saving material and reducing waste.
Furthermore, to reduce the space between the first base 10a and the second base 10b and prevent a small carried article from falling through a vacancy, loading plates 30 may be provided. Here, the loading plates 30 can be plastic corner plates which are hollow and made from a mesh coupling through plastic extrusion. The plastic corner plates 30 are assembled to the plastic pallet structure via an embedded method. But embodiments of the present invention are not limited thereto. The material of the loading plates 30 is adjustable according to the practical situations. A buckling structure 31 may respectively be disposed on the intersections with the first base 10a, allowing the plastic corner plate 30 to be buckled into the first base 10a conveniently and quickly. Furthermore, bow-typed extensions made of a mesh-typed sheet body are disposed on the plastic corner plate 30 and coupled to the first base 10a; it can further strengthen the compressive stress of the plastic corner plate 30.
In this embodiment, the first base body includes a plurality of engaging grooves 40 provided for engaging with the plastic corner plates 30. As shown in
The number of the first bases 10a and that of the second bases 10b in the present embodiment depend on the weight carried by the pallet. The pallet may be included of two first bases 10a and two second bases 10b, three first bases 10a and three second bases 10b or four first bases 10a and four second bases 10b, collocating with the plastic corner plate 30 positioned on each first base 10a or second base 10b. The number of first bases 10a and that of the second bases 10b mentioned above are exemplary and explanatory only, the present invention is not limited to these.
That is to say, in some implementation aspects, the number of the first bases 10a and that of the second bases 10b is two, and the number of the first opening clamping portions 131 of each first base 10a and that of the second opening clamping portions 132 of each second base 10b is two, while the number of the loading plates 30 is one. At this time, the width W1 of the plastic corner plate 30 and that of the engaging groove 40 are slightly smaller than the first base body; namely, the loading plate 30 for carrying goods is placed within a region enclosed by the first bases 10a and the second bases 10b. Therefore, the number of the first bases 10a, the number of the second bases 10b, the number of the first opening clamping portions 131, the number of the second opening clamping portions 132, the width and the number of the engaging grooves 40 and the width and the number of the loading plates 30 are cooperated with the combination type of the above elements and are all adjustable according to the practical situations.
Please refer to
The second base 10b (the vertical base) also mainly includes a basic portion 11, a plurality of second opening clamping portions 132, a plurality of extension portions 17, a plurality of second arch bridge portions 182; the reason that it is defined as the vertical base is because the opening of the second opening clamping portion 132 faces downward. Similarly, a sheet body made from plastics by means of pressure casting is formed into a mesh-typed structure of sheet body by means of the steel structure of the connection of steel beams in architecture through plastic pressure casting; the sheet body is used as a basis to couple to each portion, forming the first supporting portion 16 and the second supporting portion 16a of the second base 10b.
That is to say, both the first base 10a and the second base 10b have the first supporting portion 16 and the second supporting portion 16a.
Furthermore, the beam column 12 is installed in advance; the beam column 12 is used for increasing a bearing capacity of the first base 10 (or the second base 10b) after being combined therewith; the beam column 12 is installed extraordinarily at the set positions of the first opening clamping portions 131 of the first base 10a (or the second opening clamping portions 132 of the second base 10b) as
To elucidate in a detailed manner, the first opening clamping portion 131 has a first accepting space 201 and a second accepting space 202. The first accepting space 201 is provided for receiving the first beam column 121 of the first base 10a penetrated therethrough. The second accepting space 202 is provided for receiving the second beam column 122 engaged by the second opening clamping portion 132. Moreover, the second opening clamping portion 132 has a third accepting space 203 and a fourth accepting space 204. The third accepting space 203 is provided for receiving the first beam column 121 engaged by the first opening clamping portion 131. The fourth accepting space 204 is provided for receiving the second beam column 122 of the second base 10b penetrated therethrough. The first beam column 121 of the first bases 10a is a first plane, and the second beam column 122 of the second bases 10b is a second plane paralleled to the first plane, so that the first plane and the second plane are provided as the basis for the combining of the first bases 10a and the second bases 10b so as to strength the bearing capacity.
A method for installing the beam column 12 in advance includes an integral forming: in the first bases 10a and the second bases 10b, pre-making the beam column 12 and pre-planning the connection between the beam column 12 and the sheet body of the first supporting portion 16 while installing the sheets (the first supporting portion 16 and the second supporting portion 16a), coupled to each main site, and an integration is completed after pressure-casting plastics by means of taking the beam column 12 as a center to form a united body including such features as X, Y, V and H structures, forming the first bases 10a and the second bases 10b (horizontal or vertical detachable bases) with the beam column 12 used for forming a steel type of structure body capable of bearing a heavy weight.
The installment method further includes a space reservation method: pre-measuring and pre-positioning an accepting space 201204 for placing a metal material on every site of the first bases 10a and the second bases while the sheet body of the first supporting portion 16 is connected as
The first bases 10a with the first beam column 121 and the second bases 10b with the second beam column 122 are both coupled to each other by engaging the first opening clamping portions 131 and the second opening clamping portions 132 with each other, as
Please refer to
The beam column 12 of the present invention can increase the structural strength of the first bases 10a and that of the second bases 10b. The interlacing supporting portions formed through the hollow space in the seat bodies of the first bases 10a and the second bases 10b further increase the structural strength in the horizontal and vertical directions, thereby increasing the torque and diagonal shear, solving the problem of a conventional pallet in which a dynamic load cannot be carried, causing pallet breakage or damage to the buckling element used for the assembly.
The first beam column 121 and the first opening clamping portions 131 of the first bases 10a, and the second beam column 122 and the second opening clamping 132 of second bases 10b are used to form the first bases 10a and the second bases 10b into a crisscross combination, thereby increasing the compressive torque and shear of the pallet. However, for lightweight transportation, the beam column 12 may be omitted since the dynamic load of a heavy weight is unnecessary, though the first opening clamping portions 131 (or the second opening clamping portions 132) of each main body are still maintained. Furthermore, even the six or eight piece type combination is unnecessary; the four piece type combination with the plastic corner plates 30 is sufficient. The four pieces type combination is formed by crisscrossing, pressing and clamping the two first bases 10a with the two second bases 10b so as to form a slotted shape, thereby achieving the objects of a flexible combination and saving material.
While the present invention has been described by the way of example and in terms of the preferred embodiments, it is to be understood that the invention need not to be limited to the disclosed embodiments. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims, the scope of which should be accorded the broadest interpretation so as to encompass all such modifications and similar structures.
Number | Date | Country | Kind |
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100118022 A | May 2011 | TW | national |
This application is a continuation application of U.S. application Ser. No. 13/211,488 filed in United States on Aug. 17, 2011, which itself claims priority under 35 U.S.C. §119(a) of Patent Application No. 100118022 filed in Taiwan, R.O.C. on May 23, 2011, the entire contents of which are hereby incorporated by reference.
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Number | Date | Country | |
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Parent | 13211488 | Aug 2011 | US |
Child | 13903792 | US |