TRANSPORTATION CONTAINER WITH SEPARATION ROTATING DEVICE
Field of the Invention This invention relates to a transport container that translates or stores piece fabrics, which comprises a floor unit and vertical walls, wherein the internal space of the transport container can be subdivided into at least two chambers, at least through a separation device. This invention also relates to a method of loading and unloading this transport container. Background of the Invention The increasing traffic of merchandise occurs between the production and processing tasks, the sales companies and the consumers. Due to the large number of different goods, a large number of different shipping containers is also required. In this way, particularly when dealing with fabrics or fabrics in the piece, there is a great need for transport containers that are adapted to the specific demands of the piece fabrics that will be transported. Conventional transport containers for piece goods or fabrics are, in general, of a relatively rigid structure, that is, they are coincident REF. 178228 with respect to its geometry and its properties for the transport of a specific type of piece fabrics. In other words, this transport container can only be used to transfer those tissues in pieces, for the displacement of which the transport container was designed. The transport of a different type of piece fabrics that perhaps differs only slightly from the piece fabrics, for the transport of which the transport container was actually built, is no longer possibly used more for this reason. Therefore, there is a need for transport containers for the transfer of piece goods or fabrics, which are more flexible in terms of use, ie those transport containers that are also suitable for piece fabrics that differ only slightly between Yes with respect to form, size and material property. The piece goods or fabrics that are transported in a relatively non-problematic manner are, generally, of a substantially parallelepiped plan configuration. Parallel-shaped piece fabrics can be easily introduced with optimum utilization of the space within the transport containers of a suitable configuration, in which case a plurality of these items can be placed in a mutually juxtaposed and / or reciprocal relationship. in a reciprocally superposed relationship without causing unused intermediate spaces that are relatively large. If in addition, the separation devices were provided to protect the piece tissues that are placed in a mutually juxtaposed and / or reciprocally superposed relationship, these would also provide a stable system, with respect to which, on rare occasions, the inclination or the sliding of the tissues in piece, when properly placed. When dealing with piece goods or fabrics that differ from this ideal basic form to a greater or lesser degree, problems would arise to make ideal use of the available space and also with respect to the stability of a plurality of fabrics in piece that are located in a reciprocally juxtaposed and / or reciprocally superimposed relationship. Therefore, there is also a great need for transport containers that are suitable in particular for the transfer of piece fabrics that do not essentially have a parallelepiped shape. Examples of these piece fabrics that do not have a parallelepiped shape are piece fabrics, whose basic configuration, at least in a plane in which they are considered, is substantially of a triangular, rhomboidal or circular or elliptical shape. Brief Description of the Invention Therefore, the object of the present invention is to provide a transport container that can be used with maximum flexibility, that is, for the transport of several piece fabrics that differ slightly from each other with respect to their shape, size and material property. A particular aspect of the invention is the development of a transport container that can be used so flexibly that it is also suitable in particular for transporting piece fabrics without having a substantially parallelepiped shape, while making use optimum of the space involved, for example, for the transport of piece fabrics whose basic configuration, at least in a plane in which they are observed, corresponds substantially, with a triangle, a trapezoid or a parallelogram. This object is achieved by means of a transport container of the type indicated above, characterized in that at least one separation device is connected at least to the inner surface of the transport container through a joint-shaped connection, in where the separation device can be rotated around a hinge-shaped connection, in such a way that the division of the volume of the container in the chambers is variable. The transport container according to the invention has the desired flexibility by virtue of the hinge-shaped connection of the separation device on the inner surface of the transport container. Depending on the respective fabrics or fabrics in the piece to be transported, the separation device can be rotated around the joint-shaped connection. The division of the transport container in the chambers can be varied in such a way and in this way can be combined with the size of the shape of the piece fabrics that will be transported. In the extreme case, the separation device can still assume such a position in which the internal space of the transport container is no longer divided into chambers by the separation device. The rotational capacity of the separation device by means of the joint-shaped connection is advantageous, in particular, for the transport of piece fabrics which differ to a large extent from the parallelepiped shape in terms of their basic configuration, such as for example , the fabrics in piece whose basic configuration at least in a plane in which they can be observed, corresponds with a triangle, a trapezoid or a parallelogram. The separation device that can be rotated from the transport container according to the invention makes it possible for two or more of these types of piece fabrics to be introduced into the transport container and to be separated from each other by the separation device without in this case it causes relatively large intermediate spaces to be produced, which would unnecessarily increase the total volume of the transport container. The piece-shaped fabrics without a parallelepiped shape mentioned above can be introduced into the transport container according to the invention in such a way that a stable arrangement is provided in which the sliding of the piece fabrics during transportation is avoided . Here, the term interior surfaces of the transport container according to the invention is used to denote the surfaces of the transport container that are oriented towards the internal space of the transport container or directly to that which is added thereto. The interior surfaces include the surfaces that face inward from the floor unit and the corresponding surfaces of the vertical walls. Transport containers that, in addition to the floor unit, have additional means of substantially horizontal delimitation, such as, for example, a roof or horizontal subdivision elements, they may also be connected according to this invention to the inner surface of the cover or the surfaces of the horizontal subdivision elements, with one or more rotary separation devices as described herein. The interior surfaces also include the surfaces of the additional means of vertical delimitation in the internal space of the transport container. The term connected to the inner surface means that the connection is made by means of the inner surface of the corresponding component of the container (for example, the floor unit, the vertical wall), wherein the connection means (for example, nails, screws) can also pass completely through this component. Preferred transport containers are those in which the separation device is elaborated, in a substantial manner, of a flexible material. A flexible material separation device can be better adapted, for example, to an irregular or curved surface and also provides a more gentle and gentle treatment for the piece fabrics with sensitive surfaces. In particular, it is preferred that the separation devices be made of flexible material, which are provided at least in a longitudinal manner in portions with reinforcements that are incorporated or placed in the separation device, preferably in the form of fiber materials. or profile members for example, of plastic material or other materials at least semi-rigid. Particularly preferred are separating devices of a substantially flexible material, in which the reinforcements are provided in the remote region of the separation device with respect to the hinge-shaped connection. In a further preferred embodiment of the present invention, the floor unit is also made from flexible material. In other embodiments, at least a portion of the vertical walls is made from flexible material. When selecting the materials for the floor unit, the vertical walls and the separation device, it is possible to choose, for example, selectively the flexible material, also which part of the transport container will be made from the flexible material and which part will be made from non-flexible material, this choice is based on the respective demands of the transport container. The advantage of using flexible materials, in addition to the ability in the part of the flexible material to adapt in some way to an article being transported, is also that it treats the surfaces and edges of the material being transported in a careful manner and smooth A transport container according to the invention which is made entirely from flexible material is particularly preferred, in the unloaded state, since it can be folded or rolled up and can be stored or transported in a space saving mode. The term articulation form connection is used herein to denote a connection that can be moved, on the one hand, between the separation device and on the other hand on the inner surface of the transport container. In one embodiment of the present invention, this hinge-shaped connection is a joint or juncture that is provided between the separation device on the inner surface of the transport container. A device for separating non-flexible material can then be rotated by means of the movable joint or joint. In other embodiments of the invention, the movable connection of the separation device and the inner surface of the transport container are implemented by means of flexible sheets or bands which are provided between the separation device and the inner surface of the container and which are fixedly connected with it when sewn to the container, stuck on it, riveted with the container, welded to it, glued with the container or in some other way. Preferably, these flexible sheets or bands are cut substantially triangular to semicircular. In a particularly preferred feature there are two of these flexible sheets or bands for each separation device, wherein the sheets or bands are fixed for example, on one side with a respective edge of the two mutually opposite longitudinal edges of the separation device and are secured on the other side on the inner surface of the transport container. In alternative embodiments with a flexible material separation device, the separation device is glued, adhered, or sewn on the inner surface of the transport container in a fixing region. The separation device can also be nailed, screwed, welded or riveted on the inner surface of the transport container. In all these cases, the flexible separation device is like a movable joint in the region that is added to the fixation region. In these modalities, the provision of a separate joint or articulation is not absolutely necessary. Particularly preferred embodiments are those in which the separation device is connected at one end by means of a joint or junction and at the other end through a band of flexible material, with the inner surface of the transport container. The modalities that are also preferred are in which a flexible separation device has on the one hand a region that is movable in shape and that joins directly with a region that is fixed with the inner surface of the transport container. , and on the other hand, it is connected to the inner surface of the transport container by means of a band of flexible material. In a particularly preferred additional embodiment, the separation device is connected along one of its longitudinal edges with the inner surface of the transport container by means of a joint or joint and is additionally coupled with the inner surface of the transport container to along the two longitudinal edges that join this longitudinal edge. Preferably, this separation device has a trapezoidal total base surface of substantially equal sides. In specific embodiments of the transport container according to the invention, the transport container is divided by at least one non-rotating separation device into at least two primary cameras, which in turn can be variably divided by at least one device rotating separation. The non-rotating separation devices are additional means of vertical delimitation in the internal space of the transport container. Therefore, the inwardly facing surfaces of the non-rotating separation devices can also be connected to the rotating separation devices.
It would be particularly preferred if the rotating and non-rotating separation devices were placed alternately. The alternate arrangement of the rotating and non-rotating separation devices is advantageous in particular when the transport container according to the invention is used for the transport or storage of piece fabrics, the configuration in plan of which at least in one plane where they are substantially observed, corresponds to a right angle trapezoid or a right angle triangle. Further preferred embodiments of the present invention are characterized in that at least one non-rotating separation device extends in a vertical direction in a substantially parallel relationship with the pivot axes of the rotating separation device, while in other preferred embodiments, at least a non-rotating separation device extends in a vertical direction in a relationship substantially perpendicular to the pivot axes of the rotary separation device. This provides for the further subdivision of a transport container according to the invention, wherein the subdivision is performed not only in one dimension but also in a second dimension. It would be particularly preferred if, in a transport container according to the invention, at least one non-rotating separating device extends in the vertical direction in a relationship substantially in parallel with the pivot axes of the rotating separation device and at least one additional device. Non-rotating separation would extend in a vertical direction in a relationship substantially perpendicular to the pivot axes of the rotating separation device. Preferably, at least one non-rotating separation device is made from flexible material. It is particularly preferred if all non-rotating separation devices were made of flexible material. The advantages of using the flexible material in the production of transport containers according to the invention have already been discussed in detail beforehand. Among other things, the particular preferred transport containers according to the present invention are characterized in that in the unloaded condition they can be folded together or rolled up. In preferred embodiments of the present invention, flexible materials include woven and film materials. Particularly preferred materials are films of plastic material or technical textiles such as, for example, knitted fabrics, warp knitted fabrics and biaxial structures. Technical textiles have a very high load capacity, are stable and resistant to tearing and yet are extremely low weight. It would be particularly advantageous if technical textiles are used whose meshes or textile webs are located so that the webs can slide in and out of each other. A corresponding technical textile material possesses an additional elasticity by virtue of the plies which are capable of sliding in and out of each other. Particularly preferred materials are those that are not charged electrostatically and materials that are resistant to water and resistant to various fluids, such as, for example, aqueous solutions, emulsions or oils. The additional embodiments of the present invention are characterized in that a clamping bar is provided at the upper end of the separation device. Preferably, this clamping bar is made from at least semi-rigid material. The movement of the separation device, in particular flexible or elastic separation devices, is facilitated by this clamping bar. In particularly preferred embodiments, the holding bar is of such a nature that it prevents the separation device from falling into the internal space of the transport container. This is achieved for example, by means of the clamping bar which is included in a certain way wider than the separation device, so that it rests on the vertical walls and / or the non-rotating separation devices which are placed in a relationship substantially perpendicular to a rotating device from separation. In embodiments with more than one rotating separating device, at least two rotating separation devices are connected together, preferably, by means of a common clamping bar. This provides the coordination of the rotating movement of the different separation devices. Depending on the respective arrangement of the separation devices and the piece fabrics that will be transported, this coordination is not always desired, and in these embodiments the separate mobility of the rotating separation devices is preferred. In a preferred embodiment of the present invention, at least one holding bar is of such a configuration that it can be moved by a machine in the context of the automated method. Depending on the respective circumstances that are involved, it would be desirable that the transport container according to the invention can be introduced into a transport frame provided for the same. Accordingly, the preferred transport containers according to the present invention can be placed in or suspended in a transport frame, in which case, the outer dimension of the transport container or of a multiple of it would be selected so as to be more smaller than the internal dimension of the transport frame in which at least one transport container can be inserted into the transport frame. When dealing with a plurality of transport containers that are introduced into this transport frame, they are placed in a mutually superimposed and / or reciprocally juxtaposed relationship. The combination of the transport containers and the transport frame is particularly advantageous since different materials possessing various properties can be selected for the production thereof. An advantageous combination is, for example, the combination of a flexible material transport container and a rigid material transport frame. The flexible material is advantageous due to the gentle and gentle treatment of the fabrics per piece that will be transported and the rigidity of the transport frame makes it possible for the transfer of systems according to the invention, comprising the transport container and the transport frame , that are stacked one on top of the other. In the case of some transport frames, the frame only comprises a bar assembly made from a material having sufficient stability in terms of stacking. The additional modalities are characterized by the transport frames that are like an open top box, the walls of which support the additional protection for the material that will be transported. The transport containers that are placed or suspended in a transport frame can be fixed, preferably, in the transport frame, in particular, they can be fixed with a double-sided adhesive tape, profile members and / or fastening tape of hook-and-loop type. Attaching the transport containers to the transport frame prevents the sliding of the transport containers from occurring in the transport frame during transport. In a method according to the invention of loading and unloading a transport container having a rotating separation device, the separation device for the loading operation is folded towards the first loading position, in which case, it opens a first camera, inside which can be introduced the material that will be transported. Once this first type of material that will be transported has been introduced, the separation device is folded towards a second loading position. In this case, it opens a second chamber, inside which the second type of material that will be transported is introduced. Preferably, this second loading position is also the transport position. For the unloading operation, first, the second type of material that is being transported is removed from the second chamber, subsequently, the separation device is folded towards the first original loading position and then, the first material is removed from it. the first camera. All the method steps indicated above can be carried out through a machine in an automated loading method. The transport containers indicated above in accordance with the invention are advantageously used for the transfer of piece fabrics, the basic configuration of which at least in a plane in which they are observed, is of a geometry that does not it involves no mirror-image symmetry, or the basic configuration of which is substantially the same as that of an isosceles triangle. BRIEF DESCRIPTION OF THE DRAWINGS All the features indicated in the preceding description of the embodiments of the present invention can be freely combined, in this respect, the advantages of the corresponding combinations of characteristics will be apparent to the person skilled in the art from the combination and the fundamental objective of a specific modality. This also applies with respect to the features of the further advantageous embodiments of the present invention, which are illustrated by way of example with reference to the following figures, in which: Figure 1 shows a perspective view of a container of transport according to the invention with a separation device rotatably connected with the inner surface of the floor unit, Figure 2 shows a perspective view of an alternative embodiment of the transport container according to the invention with rotating devices and non-rotating separation, the rotating separation devices are connected together by means of a common clamping bar, Figures 3a-3e show side views in cross-section through the transport containers according to the invention with different arrangements of the device or separation devices, Figure 4 shows a perspective view of a transport container according to the invention with a plurality of separation devices, which are connected in an articulated manner to the floor unit and which have separate holding bars, Figure 5 shows a transport container according to the invention. the invention being placed in a transport frame, Figures 6a-6d show a method of loading and unloading a transport container according to the invention; Figure 7a shows a perspective view of a transport container according to the invention; the invention having a separation device that is rotatably connected to the inner surface of a vertical wall, Figure 7b shows a perspective view of an alternative embodiment of a transport container according to the invention having a device for separation that is rotatably connected to the interior surface of a vertical wall, Figures 8a-8b show a perspective view of a transport container according to the invention with a separation device that is connected in an articulated manner by means of flexible bands with a vertical wall, in steps a) and b), Figure 9 shows side views in section cross-section through an alternative embodiment of a transport container according to the invention with a different arrangement of the separation devices, and Figure 10 shows side views in cross-section through an alternative embodiment of a transport container according to the invention. with the invention with a different arrangement of separation devices.
Detailed Description of the Invention Figure 1: Figure 1 shows, in schematic form, a transport container 1 according to the invention having a rectangular floor unit 2 and perpendicular to it, the vertical walls 3. The internal space of the transport container 1 (and thereby also the volume of the container) is subdivided into two chambers 4a and 4b by a separation device 5. The separation device 5 is fixedly connected to the interior surface of the floor unit 2 in the fixing region 15 and is connected in an articulately movable manner with it in the region 26 joining this fixing region 15. A holding bar 8 is provided at the upper end of the separation device 5. In the embodiment that illustrated, the floor unit 2, the vertical walls 3 and the separation device 5 are made from flexible material and the holding bar 8 comprises plastic material semirigid. Figure 2: The embodiment illustrated schematically in Figure 2 has two non-rotating separation devices 7 extending in a vertical direction in a relationship substantially perpendicular to the pivot axes of the three pivoting separation devices 5. non-rotating separation devices 7 divide the volume of the container into three primary chambers. These primary chambers in turn can be divided in a variable manner by the rotary separation devices 5. The rotating separation devices 5 are connected in an articulated manner to the inner surface of the floor unit 2 in region 26. The separation devices 5 are fixedly connected to the inner surface of the floor unit 2 in the fixing region 15. The upper ends of the separation devices 5 are connected together by means of a common holding bar 8. The floor unit 2 , the vertical walls 3 and the non-rotating separation devices 7 are made from a rigid material while the movable separation devices 5 are made from flexible material, wherein the profile members are incorporated in the flexible material with stabilization purposes (this is not shown). Figures 3a-3e: Figure 3a shows a schematic view largely of the transport container 1 according to the invention with a separation device 5 of rigid material, which is connected to the floor unit 2 by means of a joint 6 The view of this figure is a cross-sectional side view through the transport container 1. This plane in which the transport container 1 is observed is a rectangular cross-sectional area which is defined by the length of the transport unit. floor 2 and the height of the vertical walls 3. The total cross-sectional area of the transport container 1 is divided into the cross-sectional areas of the chambers 4a and 4b through the separation device 5. The cross-sectional areas of the chambers 4a and 4b are trapezoidal in the illustrated position of the separation device 5 and are therefore suitable for accommodating therein the piece tissues 10a and. they are also of a trapezoidal cross-section, where the cross section of the piece fabrics is somewhat smaller than that of the chambers 4a and 4b. Figure 3b shows the transport container 1 of Figure 3a, where the separation device 5 is in a different position. The volumes of the chambers 4a and 4b have been altered by the change in the position of the separation device, in such a way that the transport container is now suitable for the transfer of piece tissues in different ways, more specifically, tissues in a piece of a substantially rectangular cross section 10a and 10b. Therefore, Figure 3b shows in combination with Figure 3a how the transport container 1 according to the invention can be used., since it is suitable for the transfer of items of different configurations. The cross section of the transport container 1 as shown in Figure 3c is substantially the same cross-sectional area as the transport container shown in Figures 3a and 3b, this cross-sectional area is divided by the separation device. 5 which is connected in an articulated manner by means of the similar joint element 6 to the inner surface of the floor unit 2 in two chambers 4a and 4b, each of which has a cross section in the shape of a right triangle. Consequently, the modality illustrated in this figure can accommodate in it two items of piece fabrics, which are also of a cross section of a straight triangle, in this respect, the length of the sides of the triangle of the items that being transported should be slightly smaller than that of the sides of the cross section of the chamber. Figure 3d shows the transport container 1 of figure 3c, with the separation device 5 in another position. The change in the position of the separation device means that the transport container 1 now has substantially only a long chamber 4 of a substantially straight angle cross-section, into which a piece of fabric 10 is inserted which is selected from way that is of the corresponding size and configuration. In this way, Figure 3d in combination with Figure 3c show how the transport container 1 according to the invention can be used, since it is suitable for the transport of articles of different configurations. The modality shown in Figure 3e is of such a design, so that it can be accommodated in the same six items lOa-lOf, the cross section of which is like that of a right angle trapezoid. The chambers 4a-4f are separated from each other, or alternatively, by the rotary separation devices 5 and the non-rotating separation devices 7. The non-rotating separation devices 7 extend in the vertical direction inside the container in a substantially parallel relationship with the pivot axes of the rotating separation devices 5. The rotating separation devices 5 are connected to the inner surface of the floor unit 2 by means of hinge-shaped connections 6. At the upper end, each of the separation devices 5 has a respective holding bar 8. Figure 4: The embodiment illustrated schematically in Figure 4 is substantially comparable to the embodiment shown in Figure 2. However, it will be noted that unlike Figure 2, there is no common clamping bar 8 for the three separation devices 5. In this mode , each of the separation devices 5 has separate holding bars 8. In addition to the articulation-shaped elements 6 by means of which the separation devices 5 are connected with the floor unit 2 and thereby, with the Pivot axes of the separation devices 5, are not placed on an axis or on a common line. In this embodiment, the floor unit 2, the vertical walls 3 and the separation devices 5 are made of rigid material. Figure 5: The transport container 1 according to the invention shown schematically in Figure 5, comprises flexible material and is suspended in a transport frame 9 for stabilization purposes. The transport container 1 has nine rotating separation devices 5 of which, every three of which in a respective row are connected together by means of a common holding bar 8. Figures 6a-6d: Figures 6a-6d show in schematic form, a method of loading and unloading a transport container according to the invention as illustrated for example, in Figures 1, 2 and 3a. In Figure 6a, the separation device 5 is in the first loading position 11. The holding bar 8 prevents the separation device 5 from falling into the internal space of the transport container. Figure 6b illustrates the introduction 12 of a first item 10a that will be transported inside the left-handed camera 4a of the transport container 1. In this state, the right-hand camera 4b is of a volume markedly smaller than the camera a left hand 4a. In order to advantageously alter the volume of the two chambers, the separation device 5 is moved to the second loading position 13, as shown in Figure 6c. In this case, the volume of the left-handed camera 4a is reduced while the volume of the right-hand camera 4b is increased. Figure 6d shows how the item 10b is introduced, which will be transported inside the chamber 4b which has now been increased in size, as in 14. Then, it is preferred that the transport is also carried out in this position. Figure 7a): Figure 7a) shows a transport container 1 according to the invention having a separation device 5 which is fixedly connected with the inner surface of the vertical wall 3 in the fixing region 15 and which it is movably connected thereto through region 26 which is like a movable joint. The separation device 5 of this mode can be moved in the horizontal plane. Figure 7b): The separation device 5 of the embodiment shown in Figure 7a) of a transport container 1 according to the invention can be moved in a vertical plane. This separation device 5 is also rotatably connected to a vertical wall 3 joining the fixing region 15. Figures 8a-8b: Figures 8a) and 8b) show, in schematic form, a perspective view of a container of transport 1 according to the invention with a separation device 5 which is connected in an articulated manner to a vertical wall 3 by means of the flexible bands 16. The flexible bands 16 comprise a flexible textile material and are sewn on both of the inner surface of the vertical wall 3 and also on the separation device 5, the separation device 5 is made from flexible textile material in which the plastic profile members have been incorporated for reinforcement purposes (not shown). Figure 8a) shows the position of the separation device 5 which is suitable for loading and unloading the lower chamber. Figure 8b) shows the position of the separation device 5 which is suitable for loading and unloading the upper chamber and for transport in the loaded state. Figure 9: The cross section shown on the left-hand side of Figure 9 through an alternative embodiment of a transport container 1 according to the invention has in the illustrated plane in which twelve cameras are observed which are formed by the floor unit 2, the vertical walls 3 and the rotating separation devices 5 and the non-rotating separation devices 7, wherein the materials used are flexible and are provided at least in part in a guided portion mode with reinforcements. In the third dimension, this embodiment may also have additional rotating and non-rotating separation devices and a corresponding number of cameras (not shown). In this case, the additional non-rotating separation devices extend partly in parallel and partly perpendicular to the non-rotating separation devices 7 illustrated. The rotating separation devices 5 are connected in an articulated manner by means of joint-shaped elements 6 with the inner surfaces of the side walls 3 and the surfaces of the non-rotating separation devices 7. The embodiment illustrated in this view can be accommodate in the illustrated plane, for example, twelve elements that will be stored or transported, in chambers of a substantially trapezoidal cross section. However, this view shows the transport container in the downloaded state. The intermediate view in Figure 9 shows the same modality, with the rotating transport devices 5 that are in the folded position upwards. The upward folding of the separation devices 5 provides that the flexible transport container can be folded in the horizontal direction. This collapsed folding together state is finally shown in the right-hand view in Figure 9. Figure 10: The cross-sectional side views shown in Figure 10 through an additional embodiment of the transport container 1 according to the invention are comparable with the embodiment of Figure 9, in which case in this case the rotating separation devices 5 are oriented in the loaded state, either in a substantially horizontal direction (the left hand view) or in a substantially vertical direction (the central view). Depending on the respective orientation of the rotating separation devices 5, the transport container 1 in the plane in which it is observed, has either nine small or three large chambers of a substantially right-angle cross section, within which the fabrics are introduced into a lOa-lOi piece of suitable size and configuration. In this way, the left and intermediate views in Figure 10 show in graphic form how the transport container 1 according to the invention can be used since it is suitable for the transportation of items of different sizes and configurations. The right-hand view in Figure 10 shows this specific transport container 1 in the unloaded and collapsed state. It is noted with respect to all the illustrated figures that the person skilled in the art will quickly recognize the schematic nature of the figures, so that when the present invention is carried out, the skilled person will not feel attached by themselves for example. , the precise dimensions, size ratios and layer thicknesses, as illustrated in the figures. The corresponding advantageous dimensions, size ratios and layer thicknesses will be derived from the respective demands that for the main part depend on the nature of the materials being transported and the materials used in the manufacture of the transport containers according to the invention.
List of references 1 transport container 2 floor unit 3 vertical wall 4 chamber 5 rotating separation device 6 joint-shaped connection 7 non-rotating separation device 8 clamping bar 9 transport frame 10 material being transported 11 first position loading 12 introduction of a first type of material that is transported 13 second loading position 14 introduction of a second type of material that is transported 15 attachment region 16 articulation shape connection in the form of a flexible sheet 26 movable region in the way of articulation form It is noted that in relation to this date the best method known by the applicant to carry out the aforementioned invention, is that which is clear from the present description of the invention.