EP3907165A1 - Kit for a storage and insertion device and method therefor - Google Patents

Abstract

The invention relates to a kit for a storage and insertion device (5) for filament spools (40) with a storage box (30), a filament spool carrier (10) and two carrier pins (20). The filament spool carrier (10) is designed to be foldable and, in the folded state, has two opposite receptacles (11) for the carrier pins (20). The support pins (20) are also designed as foldable elements. The invention also relates to a method for assembling a storage and insertion device (5) for filament spools (40) from such a kit.

Description

The invention relates to a kit for a storage and insertion device for filament spools and a method for assembling the storage and insertion device for filament spools from a kit.

3D printing processes, which are also known as additive manufacturing processes, are spreading more and more. This is understood to mean, in particular, methods in which three-dimensional objects, a so-called workpiece, can be produced by applying a layer of material to a layer of material. Various methods are known. One of these processes is called Fused Filament Fabrication (FFF), in which the workpiece is built up in layers from a meltable plastic or, for example, from other meltable materials. In this process, a grid of fused dots is applied to a surface in a similar way to normal printing. The material that is used for this is usually fed to the 3D printer in a wire-like form, heated in the 3D printer and extruded using a nozzle.

In order to use different materials, different filament spools are used. In this sense, a filament spool is a spool on which a corresponding filament wire with the desired color and made of the respectively desired material is rolled up. This is also referred to only as a filament.

The advantage of 3D printing is that different elements with different properties can be produced relatively easily. For this reason, it is also necessary to use different filament spools. The conventional procedure is as follows. A filament spool is removed from the storage facility, for example a package, and attached to a corresponding device on the printer. Then the filament of the spool is fed to the printer and the printing process is started. As soon as the printing is finished and the filament needs to be replaced, the spool is removed again and placed back separately in the packaging.

The invention is therefore based on the object of simplifying the storage and use of filament spools, in particular in the case of 3D printers.

This object is achieved according to the invention by a kit for a storage and insertion device for filament spools with the features of claim 1 and a method for constructing a storage and insertion device for filament spools with the features of claim 10.

Advantageous embodiments of the invention are specified in the subclaims, the description and in the figures and their explanations.

The kit according to the invention for a construction storage and insertion device for filament spools has a storage box, a filament spool carrier which can be inserted into the storage box, and two carrier pins. It is further provided that the filament spool carrier is designed to be foldable in a U-shape and, in the folded state, has two opposite receptacles for the carrier pins. Each of the support pins is designed as a foldable element.

In principle, it is possible to provide and design the filament reel support and corresponding support pins for the filament reel as prefabricated components. However, this would entail significant additional costs, so that the actual product, that is to say the filament itself, would become disproportionately expensive. It was therefore recognized according to the invention that it is possible to provide both the filament spool carrier and the corresponding carrier pins as part of a kit so that these components can be assembled or folded up by the user himself. Here is the filament spool carrier is designed to correspond to the two carrier pins. According to the invention it is provided that the support pins can be inserted into corresponding receptacles in the filament spool support.

The combination of the filament reel carrier with the inserted carrier pin creates a receptacle in which the filament reel can be accommodated. It is then possible to insert the filament spool carrier with the spool into the storage box, which has often already been used for shipping.

With this construction, it is no longer necessary to take a filament spool out of the storage box and only then attach it to the 3D printer, but it is possible to attach it in its storage box to the corresponding device on the 3D printer, since the storage box by the provision of the filament spool carrier with the carrier pin is designed in such a way that the corresponding filament can be led out of the storage box and fed to the printer. This makes the workflow significantly easier.

It is preferred if each support pin has a base area, on the edges of which folding elements are provided for kinking. This base area can have a triangular or polygonal geometric shape. It preferably represents a regular square, pentagon or hexagon.

After the folding elements are bent at approximately a 90 ° angle to the base, the support pin has a cup-like shape, which can be inserted with the base first into the receptacles of the filament spool carrier. Such a construction offers sufficient stability to hold a filament spool in the filament spool carrier. Here, the support pins engage in the cavity of the tubular coil.

It is preferred if the receptacles of the filament spool support correspond to the base of the support pins. In the case of a quadrangular base area, for example, this means that the receptacles of the filament bobbin are likewise designed to be quadrangular. The overall stability is further increased by the corresponding shape.

Basically, the storage box can be designed in any way. However, since it is necessary according to the invention to reinsert the filament reel carrier with the inserted carrier pins and the installed filament reel into the storage box, it is advantageous if this has a base body with a lid. This cover should ideally be able to be kinked or folded away from the base body to such an extent that the filament spool carrier with inserted filament spool can be inserted into the base body without any problems.

It is also preferred if the storage box has at least one outlet opening for leading out the filament of the filament spool. This outlet opening can be provided, for example, in the front area or in the rear area of the cover, but or also in the lower front area of the base body. The filament can be led out of the closed storage box via this outlet opening. This simplifies the use of the filament spool even further, since it is achieved in this way that the filament spool does not have to be removed from the storage box in order to use it. The different outlet openings which can be provided in the storage box have the advantage that the same model of the storage box of the kit according to the invention can be used for different 3D printing systems. This makes storage easier.

It is advantageous if at least the filament spool carrier and the carrier pins are made of a flat material in the folded state. This can, for example, also be delivered to the customer with the storage box, so that the buyer himself assembles the filament spool carrier and the carrier pin and then inserts the filament spool with the filament spool carrier into the storage box. This has the advantage that no significant additional production steps are required for the manufacturer or the consignor, so that there are no significantly higher costs. The flat material can be cardboard, for example, but also suitable plastics.

In principle, however, it is also possible to make the filament spool carrier and / or the carrier pins from a different material, for example firmly preformed, and to deliver the filament spool already ready for use in a corresponding storage box with installed filament spool carrier.

The recordings of the filament bobbin can be designed as desired. A structure that is as simple as possible, which additionally increases the stability, is achieved in that they are designed to be pressed in, the pressed-in material of the filament reel carrier being retained on the filament reel carrier. In other words, the material of the receptacles can be cut into a star shape, for example, so that the material is pressed inwards when the support pins are inserted. The material combination of the pressed-in material of the receptacles and the material of the support pins themselves thus achieve a high level of stability, which means that a filament spool can be held even better.

The invention also relates to a storage and use device made from a kit according to the invention.

Finally, the invention relates to a method for constructing a storage and insertion device for filament spools from a kit with a filament spool carrier and two support pins, each made of a flat material, and a storage box. It is provided here that the filament bobbin is bent into a U-shape. In a similar way, the two support pins are converted into a cup-like shape by bending folding surfaces relative to a base surface. The support pins are then inserted into corresponding receptacles in the filament spool support. A filament reel can now be inserted into the filament reel supports with the inserted support pins, the support pins engaging in the hollow cylinder which essentially forms the filament reel. The filament spool carrier with the filament spool can then be inserted into the storage box, so that it is no longer necessary to take a filament spool out of the storage box in order to use it. In this context, it is preferred if the corresponding filament is also led out through an opening in the storage box.

Fig. 1

eine schematische Darstellung der einzelnen Schritte zum Erstellen der erfindungsgemäßen Aufbewahrungs- und Einsatzvorrichtung.

The invention is explained in more detail below on the basis of a schematic exemplary embodiment with reference to the accompanying figure. Here shows:

Fig. 1

a schematic representation of the individual steps for creating the storage and use device according to the invention.

In Fig. 1 11 basic steps for assembling and assembling a storage and use device 5 according to the invention are shown, which are designated with A to K.

In step A, a punching sheet 26 is shown in which two support pins 20 are pre-punched. The support pins 20 do not yet have their usable shape. The punched sheet 26 consists of a flat material, for example cardboard.

In step B, the structure of the support pin 20 is explained in more detail. The support pins 20 have a base 22 which essentially consists of a regular hexagon. A total of six folding elements 23 adjoin the respective sides of the hexagon. In this respect, the support pin 20 has a star-like shape in the unfolded state. The folding elements 23 are, as indicated by the arrows 27, folded or folded in the same direction, so that they form an approximately 90 ° angle with the base area 22. This results in the folded-up support pins 20, which have a cup-like shape.

In step C, a folded sheet 16 is shown which, as described in more detail below, represents a filament spool carrier 10 in the folded state. In the folded sheet 16, receptacles 11 are provided, which are made by punching or cutouts. The receptacles 11 are dimensioned here in such a way that they essentially correspond to the base area 22 of the support pins 20. In the embodiment shown here, this base area 22 is hexagonal.

In step D it is made clear that two side surfaces 13 in which the receptacles 11 are located are bent to form a base surface 14 so that they each form approximately a 90 ° angle to one another.

Subsequently or beforehand, as shown in step E, the receptacles 11 can be pressed in. The essentially triangular sub-elements of the material of the receptacles 11 thus project inwardly into the U which is formed by the filament spool carrier 10.

Subsequently, in step F it is stated that the support pins 20 are now inserted into the corresponding receptacles 11. Due to the corresponding size of the support pegs 20 with the receptacles 11, which are preferably formed somewhat smaller than the base area 22, the support pegs 22 are securely held in the receptacles 11. This state is shown in step G.

The further use will now be shown in connection, in particular with steps H and I. In step H, in addition to the filament spool carrier 10 with the carrier pin 20, a storage box 30 is shown. This has a base body 32 and a cover 33. The cover 33 and the base body 32 are preferably dimensioned in such a way that the filament spool carrier 10 can be easily inserted into the storage box 30.

In particular in step I it can be seen that a filament reel 40 is inserted into the filament reel carrier 10 with the carrier pin 20. Usually a filament 42 of the filament spool 40 is wound around a hollow cylinder. In addition, side fixings can be provided. The support pins 20 are dimensioned in such a way that they engage in the hollow cylinder of the filament reel 40 and hold it securely. The filament spool 40 can thus be inserted into the filament spool carrier 10. The filament spool carrier 10 with the filament spool 40 is then inserted into the storage box 30.

In step J, an inserted filament spool carrier 10 with a filament spool 40 is shown in a storage box 30 which is closed. The filament 42 is led out only from an outlet opening 35, which is located in the rear region of the cover 33. As can be seen in step J, other outlet openings can also be provided, for example in the front area of the cover 33 or in the lower front area of the base body 32. Since the filament 42 is led out directly from the storage box 30, it is no longer necessary to remove the filament spool 40 from a storage box 30 and place it on a 3D printer and return it to the storage box 30 again after use. Rather, it is possible to leave the filament spool 40 directly in the storage box 30.

Finally, in step K, an opened storage box 30 is shown, in which the filament 42 is led out through another outlet opening 35.

With the kit according to the invention and the corresponding method according to the invention, it is possible to significantly simplify the use of filament spools for 3D printers.

Claims (10)

Kit for a storage and insertion device (5) for filament spools (40)
with a storage box (30),
with a filament spool carrier (10) which can be inserted into the storage box (30) and
with two support pins (20),
wherein the filament spool carrier (10) is designed to be foldable in a U-shape and, in the folded state, has two opposite receptacles (11) for the carrier pins (20) and
wherein each support pin (20) is designed as a foldable element. Kit according to claim 1,
characterized,
that each support pin (20) has a base surface (22), on the edges of which folding elements (23) are provided for kinking. Kit according to claim 2,
characterized,
that the base (22) of each support pin (20) has a triangular or polygonal geometric shape. Kit according to one of Claims 1 to 3,
characterized,
that the receptacles (11) of the filament spool carrier (10) correspond to the base surface (22) of the carrier pins (20). Kit according to one of Claims 1 to 4,
characterized,
that the storage box (30) is designed as a base body (32) with a lid (33). Kit according to one of Claims 1 to 4,
characterized,
that the storage box (30) has at least one outlet opening (35) for leading out a filament (42) of a filament spool (40). Kit according to one of Claims 1 to 6,
characterized,
that the filament spool carrier (10) and the carrier pin (20) consist of a flat material in the unfolded state. Kit according to one of Claims 1 to 7,
characterized,
that the receptacles of the filament bobbin (10) are designed to be pressed in, the pressed-in material of the receptacles (11) of the filament bobbin (10) remaining on the filament bobbin (10). Storage and use device (5) from a kit according to one of Claims 1 to 8. Method for the construction of a storage and insertion device (5) for filament spools (40) from a kit with a filament spool carrier (10) and two carrier pins (20) made of a flat material and a storage box (30),
wherein the filament spool carrier (10) is brought into a U-shaped form by bending,
wherein the two support pins (20) are created by folding folding surfaces (23) relative to a base surface (22) with a cup-like shape,
wherein the support pins (20) are introduced into corresponding receptacles (11) in the filament spool support (10),
a filament reel (40) being inserted into the filament reel carrier (10) with the inserted carrier pin (20) and
wherein the filament spool carrier (10) with the filament spool (40) is inserted into the storage box (30).

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