• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a bucket transport package for at least one bucket comprising both a bottom region and a lid region, wherein the bucket transport package comprises, on the one hand, an external block-shaped envelope with a bottom surface, four side surfaces and a lid surface, which are always made of at least one layer of double-sided corrugated cardboard which, on the other hand, is provided with at least one support structure which is provided on the one hand with lateral support surfaces for the bucket (s) and on the other hand with lateral support surfaces for propping up against the inside of the casing and therefore at least one, preferably each, bucket in its position. To carry a bucket transport package with which at least one bucket can be safely transported and a reduced space requirement can be achieved as well as a simpler waste disposal, at least one, preferably each, support structure serves as a flat element of at least one layer double-sided corrugated cardboard.
    公开号:NL1042038A
    申请号:NL1042038
    申请日:2016-09-06
    公开日:2017-03-21
    发明作者:Florit Claudio
    申请人:Wellkistenfabrik Fritz Peters Gmbh & Co Kg;
    IPC主号:
    专利说明:

    Bucket transport packaging
    The invention relates to a bucket transport package for at least one bucket comprising both a bottom region and a lid region, wherein the bucket transport package comprises on the one hand an external block-shaped sleeve with a bottom surface, four side surfaces and a lid surface, each of which consists of at least one layer of double-sided corrugated cardboard which, on the other hand, is provided with at least one support structure, which is provided on the one hand with lateral supporting surfaces for the bucket (s) and on the other hand with lateral supporting surfaces for propping up the inside of the sleeve and therefore at least one, preferably each, bucket in its position.
    Such bucket-transport packages in various embodiments are known from practice. For the transport of buckets, in which other closed containers filled with liquid or shakable contents such as paint cans or jerry cans can be understood, there are moldings made of one plastic material in the interior of the bucket transport package, such as for example expanded polystyrene or made of papier-mâché manufactured molded parts which hold the bucket (s) in position during transport.
    Such buckets can be used in particular of commercial oval buckets made of plastic, such as, for example, for wall paints and other building chemicals such as primers, limes, granules, etc. These have an oval base surface and are available in sizes from approx. 4 l above 10 l and 15 l up to and including 20 l and intermediate sizes. Certain standardized sizes are common and have uniform dimensions.
    A disadvantage of this is that the molded parts used to determine the bucket position in the bucket transport package are expensive to produce and cause an increased space requirement both during storage before use and during waste processing after use. Moreover, to the extent that a plastic material is used, uniform waste processing of the bucket transport packaging is not possible, since first of all a material separation must take place and the various components then always have to be specifically discharged or discharged. to be recycled.
    The object of the invention is to avoid the aforementioned drawbacks and to indicate a bucket transport package with which at least one bucket can be safely transported and requires reduced storage space and a simpler waste disposal can be realized.
    This object is achieved with a similar bucket transport package in that at least one, preferably each, support structure is formed as a flat element from at least one layer of double-sided corrugated cardboard. The package is thus formed as a mono-package consisting of only one type of material, and uniform waste processing of the bucket transport package is possible, since material separation no longer has to take place.
    Corrugated board is a pulp product mainly used in the packaging industry for transport packaging, which is light and relatively stable. Corrugated cardboard is created because at least one smooth and one corrugated paper web is glued together. However, one-sided glued or one-sided corrugated cardboard is not very stable transversely to the wave direction and can easily be rolled over. For cardboard packaging, therefore, usually double-sided or also single-wave corrugated cardboard is used, which as a flat product has a high rigidity in each direction.
    Preferably, at least one outer layer of the double-sided corrugated cardboard of at least one support structure can accommodate at least one bottom recess, which with respect to its size, shape and position on the size, shape and the intended position of the bottom area of the within the bucket transport package therein bucket to be delivered.
    Insofar as the support structure consists of only one layer, it can be considered as the outer layer. If several layers are present, the layer that is facing the bucket when the bucket transport package is used can be regarded as the outermost layer. If two or more layers are present, then the layer which adjoins a layer with a recess also counts as an outer layer and can also be provided with a recess for a higher lateral prop of the bucket.
    In this case, at least one bottom recess can be formed as a pre-punched and extractable area of the layer, so that this layer can serve either for lateral propping or as a buffer layer under the bucket.
    According to the invention, at least one bottom layer can also be provided as a buffer layer which, with regard to its size and shape, is tuned to the inside of the bottom surface and is formed from double-sided corrugated cardboard over the entire surface.
    The above-described bottom layers can either correspond to the size of the inside of the bottom surface or comprise only a part thereof and be supplemented with further layers for the totality of the inside of the bottom surface, for example when several buckets are in the bucket-transporting packaging.
    Also, at least one, preferably each, corner region of at least one bottom layer and / or at least one layer of a support structure, which is arranged in a corner of the bucket transport package, may have a beveled corner. As a result of this chamfer, the corner region, insofar as the bucket transport package falls onto this corner region, can be compressed to a certain extent, so that the collision energy is absorbed and the collision is reduced. Upon reaching the chamfer, then a stronger resistance acts against pressing and prevents distortion. In the case of several bottom layers, the respective corners of the individual bottom layers can also be chamfered to a different extent, which results in a sort of staircase and deliberate braking.
    In a preferred embodiment of the invention, at least one support structure and at least one bottom layer can be formed in one piece and as a foldable cut-out cut, so that the number of parts is reduced and the manageability is improved both during production and during use.
    Preferably, at least one outer layer of the double-sided corrugated cardboard of at least one support structure can have at least one lid recess which, with respect to its size, shape and position, is placed on the size, shape and intended position of the lid region of the area disposed therein within the bucket transport package. bucket is tuned. Insofar as the support structure consists of only one layer, it can be considered as the outer layer. If several layers are present, the layer that is facing the bucket when the bucket transport package is used can be regarded as the outermost layer. If two or more layers are present, then the layer which connects to a layer with a recess also counts as an outer layer and can also be provided with a recess for a higher lateral support of the bucket.
    In this case, at least one cover recess can be formed as a pre-punched and extractable area of the layer, so that this layer can serve either as a side strut or as a buffer layer above the bucket.
    According to the invention, a cover layer can also be provided as a buffer layer which, with regard to its size and shape, is adapted to the inside of the cover surface and is formed from double-sided corrugated cardboard over the entire surface.
    The cover layers described above can herein correspond to the size of the inside of the cover surface or comprise only a part thereof and can be provided with further layers for the totality of the inside of the cover surface, for instance when several buckets are to be arranged in the bucket transport package to become.
    Also, at least one, preferably each, corner region of at least one cover layer and / or at least one layer of a support structure, which is arranged in a corner of the bucket transport device, may have a beveled corner. As a result of this chamfer, the corner region, insofar as the bucket transport device falls on this corner region, can be compressed to a certain extent, so that the collision energy is absorbed and the collision is reduced. Upon reaching the chamfer, a stronger resistance then works against pressing and prevents pressing too far. In the case of several cover layers, the respective corners of the individual cover layers can also be chamfered to varying degrees, whereby a kind of staircase is created and a deliberate braking is effected.
    In a preferred embodiment of the invention, at least one support structure and at least one cover layer can be formed in one piece and as a foldable cut-out cut, so that the number of parts is reduced and the manageability is improved both during production and during use.
    The bucket-transport package can preferably be designed as a foldable cut-out cut, so that a space-saving transport is possible and a simple manufacturability is present.
    Advantageously, the foldable die cut can comprise at least one internal support structure for at least one bucket in the region of the bottom surface and / or one internal support structure for at least one bucket in the region of the cover surface. This reduces the number of parts and therefore improves manageability both in production and in application.
    In order to achieve these advantages, one, preferably each, internal support structure may be formed as a folded-back sub-area of the foldable die cut.
    The bottom surface and / or the cover surface can preferably consist of at least one layer, preferably completely, of at least two layers, preferably of 4 layers, double-sided corrugated cardboard. As a result, at least one layer is always available for both the guiding function and the damping function.
    In this case, two layers of the bottom surface and / or the cover surface can be formed as a foldable die cut with a folded-over sub-area, which is preferably formed as a folded continuation of a side surface.
    It is also possible to provide at least two opposite side surfaces, each with a folded continuation, which in each case forms a sub-area of a bottom surface or a cover surface, these two sub-regions mutually mutually supporting the bottom surface or the bottom surface. complete the cover surface. The sub-regions of the bottom surface and / or the sub-regions of the cover surface can be connected to one another by gluing, for example by means of an adhesive tape on the outside.
    Embodiments of the invention proposed in the drawings are explained below. Show there:
    FIG. la the envelope of a first exemplary embodiment of a bucket transport package according to the invention,
    FIG. lb the foldable cut-out for the envelope of the object according to fig. la,
    FIG. 2a the envelope of a second exemplary embodiment of a bucket transport package according to the invention,
    FIG. 2b shows the foldable cut-out for the envelope of the object according to fig. 2a,
    FIG. 3a the casing of a third exemplary embodiment of a bucket transport device according to the invention,
    FIG. 3b shows the foldable cut-out for the envelope of the object according to fig. 3a,
    FIG. 4a the envelope of a fourth exemplary embodiment of a bucket transport package according to the invention,
    FIG. 4b shows the foldable cut-out for the envelope of the object according to fig. 4a and
    FIG. 5a-d show the foldable cut-out of an exemplary embodiment of a support structure of a bucket transport package according to the invention (in different folding states).
    In all figures, corresponding reference characters are used for the same or similar components.
    FIG. 1a shows the block-shaped envelope 1 of a first exemplary embodiment of a bucket transport package, which serves for packaging and transport for a bucket not shown in the drawing, the bucket comprising both a bottom region and a lid region.
    The envelope 1 is formed from cardboard and has a block-shaped design. It comprises a bottom surface 2, four side surfaces 3 and a cover surface 4.
    The side faces 3 in each case consist of one layer of double-sided cardboard, as can be seen from the foldable die cut of the envelope 1 shown in Fig. 1b. The bottom surface 2 and the cover surface 4, on the other hand, always consist of two layers of double-sided cardboard, which are each formed as folded continuation 8 of opposite side surfaces 3. The layers of the cover surface 4 are herein formed partly over the entire surface, and partly approximately over the entire surface, while the layers of the bottom surface 2 are all clearly shorter. In the case of the extensions 8 of the opposing longer side faces 3, these complement themselves into a complete whole, and in the case of the shorter side faces 3 opposite each other, there remains a free space between the extensions 8, since these do not complement into a complete whole.
    In Fig. 1 a continuation 8 of the opposite shorter side surfaces 3 has already been collapsed, while the other three extensions 8 of the side surfaces 3 have not yet collapsed.
    The object according to Fig. 2 differs from the subject according to Fig. 1 in that the layers of the cover surface 4 are partly provided with welds 5 and partly with recesses 6 for piercing the welds 5. The recesses 6 are thereby formed by punches 7.
    FIG. 2a shows an isometric representation, while the corresponding foldable die cut is shown in FIG. 2b.
    With the object according to Fig. 3, the layers of the cover surface 4 are always formed as double layers, which are formed by folded-over sub-regions of extensions 8 of the side surfaces 3. Here too, Fig. 3a shows an isometric representation and Fig. 3b the corresponding foldable die cut. In this case, the double layers always complement each other to the whole of the cover surface 4, which are then connected to each other by gluing by means of an external adhesive tape not shown in the drawing.
    In addition, in the object shown in Fig. 4, the layers of the bottom surface 2 are also always formed as double layers, which are formed by folded-over sub-regions of extensions 8 of the side surfaces 3. These always complement each other to the whole of the bottom surface 2 and are connected to each other on the outside by sticking through the middle of an adhesive tape not shown in the drawing. FIG. 4a shows an isometric representation, while the corresponding foldable die cut is shown in FIG. 4b.
    FIG. 5 shows the support structure of an exemplary embodiment of a bucket transport package, which is formed as a flat element from at least one layer of double-sided corrugated cardboard. The support structure comprises, on the one hand, lateral support surfaces 10 for the bucket formed by the respective edge region and, on the other hand, lateral support surfaces 11 for propping up against the inside of the casing 1, whereby the bucket can be held in its position.
    As shown in Fig. 5d, the support structure 9 is formed as a folded die cut with folded-over partial areas. A total of 6 layers have been provided, which, due to multiple folding over (compare fig. 5b, fig. 5c), produce a correspondingly high support structure with 6 layers.
    Four of these layers each have a bottom recess 6, which is always geared to its size, shape and position to the size, shape and intended position of the bottom region of the bucket to be arranged therein within the bucket transport package.
    As can be seen from Fig. 5d, the following three layers, which connect to the first layer with recess 6, can also be regarded as the outer layer. These are also provided with a recess 6 for a higher lateral prop of the bucket.
    The recesses 6 are then formed as pre-punched and extractable area 13 of the respective layer. Two of these layers are formed without recess 6 and serve as a buffer layer under the bucket. The layers are adapted to the inside of the sleeve 1 with respect to their size and shape and are formed from double-sided corrugated cardboard over the entire surface.
    The pre-punched and removable area 13 can moreover be placed on top of the lid of the bucket, since it usually has a raised edge. Therefore, an even surface is the result, which is better against the envelope 1 resp. can support a cover layer. The pre-punched and extractable area 13 is moreover always provided with a free area 14 arranged on the edge, so that easy removal is possible.
    The corner regions of the layers always have a beveled corner 12, which is shaped the same for all corner regions.
    权利要求:
    Claims (17)
    [1]
    Bucket-transport package for at least one bucket comprising both a bottom area and a lid area, the bucket-transport package having on the one hand an external block-shaped casing (1) with a bottom surface (2), four side surfaces (3) and a cover surface (4) , which always consist of at least one layer of double-sided corrugated cardboard, and which on the other hand is provided with at least one support structure (9), which on the one hand with lateral supporting surfaces (10) for the bucket (s) and on the other hand with lateral supporting surfaces (11) for propping up against the is provided on the inside of the casing (1) and therefore holds at least one, preferably each, bucket in its position, characterized in that at least one, preferably each, support structure (9) is formed as a flat element from at least one layer of double-sided corrugated cardboard is.
    [2]
    Bucket transport device according to the preceding claim, characterized in that at least one external layer of the double-sided corrugated cardboard of at least one support structure (9) has at least one bottom recess (6) which, with regard to its size, shape and position, has the shape and intended position of the bottom region of the bucket to be arranged therein within the bucket transport package.
    [3]
    Bucket transport device according to the preceding claim, characterized in that at least one bottom recess (9) is formed as a pre-punched and extractable area (13) of the layer.
    [4]
    Bucket transport device as claimed in any of the foregoing claims, characterized in that at least one bottom layer is provided which, with regard to its size and shape, is aligned with the inside of the bottom surface and is formed from double-sided corrugated cardboard over the entire surface.
    [5]
    Bucket transport package according to the preceding claim, characterized in that at least one, preferably each, corner region of at least one bottom layer and / or at least one layer of a support structure (9) arranged in a corner of the bucket transport package has a beveled corner (12).
    [6]
    Bucket transport package according to claim 4 or 5, characterized in that at least one support structure (9) and at least one bottom layer are formed in one piece and as a foldable cut-out cut.
    [7]
    Bucket transport package according to one of the preceding claims, characterized in that at least one outer layer of the double-sided corrugated cardboard of at least one support structure (9) has at least one lid recess (6) which, with regard to its size, shape and position on the size, shape and intended position of the lid area of the bucket to be arranged therein within the bucket transport device.
    [8]
    Bucket transport package according to the preceding claim, characterized in that at least one cover recess (6) is formed as a pre-punched and removable area (13) of the layer, which is preferably from a free area (140 and / or on the edge side) free area (14) provided.
    [9]
    Bucket transport package according to one of the preceding claims, characterized in that at least one cover layer is provided which, with regard to its size and shape, is aligned with the inside of the cover surface and is formed from double-sided corrugated cardboard over the entire surface.
    [10]
    Bucket transport package according to the preceding claim, characterized in that at least one, preferably each, corner region of at least one cover layer and / or at least one layer of a support structure (9) arranged in a corner of the bucket transport package has a beveled corner (12).
    [11]
    Bucket transport package according to claim 9 or 10, characterized in that at least one supporting structure (9) and at least one cover layer are formed in one piece and as a foldable die cut.
    [12]
    Bucket transport package according to one of the preceding claims, characterized in that the bucket transport package is designed as a foldable die cut.
    [13]
    Bucket transport package according to the preceding claim, characterized in that the foldable die cut at least one inner support structure (9) for at least one bucket in the area of the bottom surface and / or one inner support structure (9) for at least one bucket in the area of the lid surface.
    [14]
    Bucket transport package according to one of the preceding claims, characterized in that at least one, preferably each, inner support structure (9) is formed as a folded-over sub-area of the foldable die cut.
    [15]
    Bucket transport package as claimed in any of the foregoing claims, characterized in that the bottom surface and / or the lid surface consists of at least one layer, preferably completely, of at least two layers, preferably of four layers, of double-sided corrugated cardboard.
    [16]
    Bucket transport package according to the preceding claim, characterized in that two layers of the bottom surface (2) and / or the cover surface (4) are formed as a foldable die cut with a folded-over partial area, which is preferably as a folded continuation of a side surface ( 3) is formed.
    [17]
    Bucket transport package according to the preceding claim, characterized in that at least two opposite side surfaces (3) are each provided with a folded over continuation, each of which forms a sub-area of a bottom surface (2) or a cover surface (4), wherein the two sectors meet for the whole of the bottom surface (2) resp. supplement the cover surface (4).
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    同族专利:
    公开号 | 公开日
    DE202015104976U1|2016-02-03|
    NL1042038B1|2017-07-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE202006011286U1|2006-07-21|2006-12-07|Brohl Wellpappe Gmbh & Co. Kg|Carton for transporting glass bottles has base and top, each made up of two flaps which are as long as full width of the carton, but have e.g. transverse perforated line allowing them to be folded back to form double-thickness flaps|
    WO2011106509A1|2010-02-26|2011-09-01|Dow Agrosciences Llc|Container|
    DE202012011323U1|2012-11-24|2013-02-19|Weserpartner GmbH Licht - Handel - Logistik|Environmentally friendly, recyclable packaging for paint buckets, safe to transport, completely made of corrugated cardboard|
    DE102017115476B4|2017-07-11|2022-03-17|Ulrich Tryzna|Packaging for shipping a bucket of paint and fixing device therefor|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE202015104976.5U|DE202015104976U1|2015-09-18|2015-09-18|Bucket Transport Packaging|
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