WO2021115506A1 - Container system for liquid consumable materials with exchangeable replacement containers - Google Patents

Abstract

The invention relates to a container system for receiving and dispensing liquid consumable articles, such as for example cosmetic articles. According to the invention, the container system consists of a main container which can be connected to a pumping device for dispensing the consumable article and can be joined together with replacement containers consisting of material-saving, weight-optimizing and/or fully recyclable materials, in particular renewable raw materials. Based on the prior art, the aim of the invention is to create a container system with exchangeable containers which enables the liquid consumable articles to be stored and dispensed in an environmentally friendly manner and allows the stand-up pouches that are used as replacement containers to be connected in a problem-free manner as much as possible between the stand-up pouch and the pump device. This aim is solved in that the container system consists of a main container into which stand-up pouches used as replacement containers are fixed during their insertion in such a way that they can no longer be rotated about their longitudinal axis and this fixation is maintained during the connection and release between the dosing pump and the stand-up pouches.

Description

Container system for liquid consumables with interchangeable replacement containers

The invention relates to a container system for receiving and dispensing dispensing of liquid consumables such as cosmetic articles. For this purpose, the container system consists of a main container, which can be connected to a pump device serving to dose the consumables and can be combined with replacement containers made of material-saving, weight-optimizing and / or completely recyclable materials, in particular renewable raw materials.

Cosmetic articles offered on the market such as soap, bath additives or shower gel are mainly housed in containers made of plastic or glass. In addition to the shape, which is very appealing in terms of shape, these containers often also have a pump device which is used for dosing and can be easily operated by the consumer by finger pressure. After use, these plastic containers, along with other plastic waste, also find their way into the environment to a considerable extent in an uncontrolled manner and represent an ever-increasing global problem.

As stated in DE 10 2008 030 076 A1 and others, beverage cartons represent an advantageous alternative to conventional containers made of plastic or glass. The beverage cartons, also known as composite packaging, are used for liquid or viscous contents. In particular, they serve as packaging for food, e.g. for milk or fruit juice. Such packaging is on the market under the well-known name Tetra Pak. Often an opening with a cylinder-shaped outwardly protruding part is made on the top of the packaging. On the surface of the cylindrical part protruding outwards there is a thread which can be screwed to a closure which is likewise provided with a thread. This packaging is suitable for "pouring out" the filling goods. In contrast to plastic or glass containers, these packages take up less space when folded. Due to their standardized size, these Tetra Pak containers can also be stacked easily and thus offer efficient logistical advantages. Furthermore, the empty packaging can advantageously be delivered to the filling plant in the form of a roll before filling. Material recycling of the emptied packaging is ensured by established disposal companies. The beverage cartons are currently also disposable packaging. However, the well-known Tetra Pak containers and stand-up pouches are the most ecologically sound solutions. The use of these beverage cartons for cosmetic articles is, however, opposed to the mainly possible “pouring function”.

CONFIRMATION COPY The object of the invention is therefore to create a container system with interchangeable containers that enables environmentally friendly storage and metering of the liquid consumables and provides the use of stand-up pouches as a replacement container through a possible problem-free connection between the stand-up pouch and the pumping device.

This object is achieved by the container system according to the invention according to the descriptive features of patent claim 1. Advantageous further developments of the container system are described with the features of patent claims 2 to 10.

For the container system that has been created, replaceable replacement containers are used to hold consumables such as cosmetic items made of recyclable materials or other material-saving and / or weight-optimizing renewable raw materials. In contrast to the conventional containers made of plastic or glass, these replacement containers represent an environmentally friendly alternative, which also has a cost-reducing effect on logistics and the manufacturing price. Advantageously, the containers, which are preferably made of cardboard or completely recyclable materials, are connected to metering pumps. As a result, the advantages of easy operation when removing the cosmetic articles are efficiently combined with an environmentally friendly and inexpensive design of the container. In order to maintain the attractive design and color of the conventional cosmetic article containers, the interchangeable containers are alternatively accommodated in stationary receiving devices. The containers serve as so-called refill packs. It has proven to be beneficial if the conventional containers in their traditional design are separated into two parts that can be joined together. The upper part is connected to the metering pump in a conventional manner. In a further embodiment, the lid is placed on the basic container and then the

Dosing pump screwed on. The interchangeable container is placed in the interior of the joined parts. When assembling the parts, the dosing pump is inserted into the opening of the container. Stand-up pouches are preferably used as refill containers. After the stand-up pouches have been inserted into the interior of the main container, they can be rotated around their longitudinal axis due to their flexible nature. The torque generated during the process of screwing the dosing pump onto the stand-up pouch is transferred to the stand-up pouch and rotates it around its longitudinal axis. In order to be able to screw the metering pumps onto the threaded spouts of the stand-up pouches without damage, the spouts connected to the stand-up pouches are largely held in their position by the fixation solutions created. The invention is to be explained in more detail below on the basis of an exemplary embodiment shown in the drawings

Fig. 1: the schematic representation of the assemblies of the container system,

Fig. 2: the schematic representation of the assembled container system with stand-up pouch,

Fig. 3: the fixation by means of cylindrical fixation elements,

4: the schematic lateral sectional view with the cylindrical fixing elements,

5: the fixation by means of molded bodies as fixation elements,

6: the schematic lateral sectional illustration with the shaped bodies as fixing elements,

Fig. 7: the fixation by means of curved elevations around the outlet opening of the container lid,

8: the schematic lateral sectional illustration with the curved elevations as fixing elements,

9: the fixation by means of an outlet opening made in the container lid,

10: the schematic lateral sectional illustration with the outlet opening as the fixing means,

11: the schematic view of the spout with a shaped body as a fixing means and

Fig. 12: the schematic representation of the container with a recess in the container bottom.

The schematic representation of Figure 1 shows the assemblies of the container system. It consists of the main container 1, the container lid 5 and the metering pump 3. The assembled container system with a generally known stand-up pouch 2 as a refill pack is shown in FIG. The stand-up pouch 2 is after his Emptying recycled in an environmentally friendly way. The external optical design of the container in this variant is identical to that of the original container. In this way, the visually pleasing design of the original container is retained. The metering pump 3 shown schematically in FIG. 2 is connected to the container cover 5 in a fixed or screwable manner. After the stand-up pouch 2 has been inserted into the interior of the main container 1, it can be rotated about its longitudinal axis due to its flexible nature. The pouring mold (spout) connected to the stand-up pouch 2 at the upper end is, as shown in FIG. And to achieve the required fixed position of the stand-up pouch 2 during the screwing, four elevations 7 are made on the edge of the outlet opening 6. The upper part of the stand-up pouch 2 is inserted between the elevations 7 made on the underside of the container lid 5. This is done by placing the container lid 5 on the stand-up pouch 2. The schematic sectional view of FIG Prevent the stand-up pouch 2 from being screwed to the dosing pump 3. Likewise, the elevations 7 can also be arranged on the weld-in surface of the spout 4 facing the outlet opening and engage in openings or depressions in the container lid.

With the figure 5, the schematic arrangement of a molded body 13 in the

The outlet opening 6 of the container lid 5 is shown. This serves to fix the stand-up pouch 2, which is also provided with a matching molded body 13. The schematic sectional view in FIG. 6 shows the stand-up pouch 2 after it has been inserted into the container lid 5

The pouring mold (spout) of the stand-up pouch 2 is screwed.

Another variant of the fixation of the inserted stand-up pouch 2 is shown in FIG. 7. Two semicircular elevations 7 arranged on the underside of the container lid 5 serve as fixing elements 2 leave. After the container lid 5 has been put on, the stand-up pouch 2 is then fixed between the two elevations 7. This fixed state with the screwed-on metering pump 3 is shown in FIG.

In the fixing variant according to FIG. 9, the outlet opening 6 is designed in such a way that the stand-up pouch 2 inserted into the outlet opening 6 is fixed in the container lid 5 in a form-fitting manner. With the schematic sectional view of Figure 10, this fixation state after the dosing pump 4 has been screwed to the stand-up pouch 2. The screw connection itself takes place by means of the thread adapter 6.

The schematic representation of FIG. 11 shows the formation of a spout 4 with a shaped body 13 used for fixation. The molded body 13 is arranged above the weld-in surface 11 of the stand-up pouch 2. The connecting part of the spout 4 located at the top has a thread 12 which is used for screwing to the metering pump 3.

The illustration in FIG. 12 shows the design of the container with a recess 9 made in the container bottom 10. This recess 9 serves as a collection point for the remaining stocks of consumables. By means of an appropriately long suction pipe of the metering pump 3, the stand-up pouch 2 is pressed into the recess 9 and the consumables are completely removed.

Reference number 1 main container

2 stand-up pouches

3 dosing pump

4 spout

5 container lid 6 outlet opening

7 survey

8 thread adapters

9 deepening

10 Container bottom 1 1 welding surface

12 threads

13 moldings

Claims

Claims 1. Container system for liquid consumables with interchangeable replacement containers made of material-saving, weight-optimizing materials, in particular renewable and / or completely recyclable raw materials, which are designed to be connectable with a metering pump, characterized in that the container system consists of a main container (1), in which as a replacement container used stand-up pouches (2) are fixed when they are introduced in such a way that they can no longer be rotated around their longitudinal axis and this fixation is maintained during the connection establishment and release between the metering pump (3) and the stand-up pouches (2). 2. Container system according to claim 1, characterized in that the fixation of the stand-up pouches (2) by the form-fitting joining of shaped areas of the spouts (4) introduced into the stand-up pouches (2) with shaped Areas on the inside or through the container lid (5) takes place, wherein the respective opposing areas to be joined are designed as a matrix and male mold. 3. Container system according to claim 1, characterized in that the stand-up pouch (2) is fixed by inserting the spout (4) between elevations and / or depressions (7) made on the inside of the container lid (5). 4. A container system according to claim 3, characterized in that the stand-up pouches (2) are fixed by inserting the spout (4) between cylindrical elevations (7) introduced around the outlet opening (6) on the inside of the container lid (5). 5. The container system according to claim 3, characterized in that the stand-up pouches (2) are fixed by inserting the spout (4) between elevations (7) arranged on the inside of the container lid (5) and curved around the outlet opening (6). 6. A container system according to claim 1, characterized in that the stand-up pouch (2) is fixed by inserting raised areas (7) formed on the top and / or the weld-in part of the spouts (4) in recesses in the container lid. 7. Container system according to claim 1, characterized in that the metering pump (3) is releasably connected to the respective stand-up pouch (2) by means of a thread adapter (8). 8. Container system according to claim 1, characterized in that the container bottom has a recess (9) which is used to collect the remaining liquid consumable in the replacement container, and the metering pump (3) is designed so that its pumping action also reaches the recess area. 9. A container system according to claim 1, characterized in that the stand-up pouches (2) are fixed by inserting the spouts (4) into shaped recesses in the container lid (5). 10. A container system according to claim 1, characterized in that a stationary receiving device is provided for the container system, which is used to receive a main container (1) simulated from the original container, in which the Replacement container containing consumables is arranged and connected to the metering pump (3) via the container cover (5). In addition 6 sheets of drawings.