The present invention relates to containers, in particular to containers for household products.
The invention was developed in view of its application to containers for laundry and dishwasher detergent pods.
Laundry and dishwasher detergent pods are water-soluble pouches containing highly concentrated laundry detergents, softeners, and other laundry products. Detergent pods are becoming increasingly popular in view of the ease of use for the user and the positive impact on sustainability as they are a way to reduce wasted use of powdered and liquid detergent by having precise measurements for a load.
Concern has been raised over children accidentally being exposed to laundry pods, because of their pattern and multi-color design which make them similar to candies and the risk that children may confuse them as such.
In 2012, in response to a child swallowing Tide Pods, Procter & Gamble said they would make the pod container more difficult to open by adding a double latch to the lid, and has also re-focused their advertising to make clear the product should be out of a child's reach at all times. The pod packaging was also changed to an opaque orange rather than the original clear plastic gumball machine-type presentation to make them look less enticing. Other manufacturers followed suit with equivalent packaging changes. In 2013, Consumer Reports stated that there had been nearly 7,700 reported incidents in which children aged 5 or younger had been exposed to laundry pods, and that year one child from Florida died after ingesting a pod. In 2014, a study published in Pediatrics found that from 2012 to 2013, more than 17,000 calls were made to poison control centers about children who had been exposed to the pods. Despite the industry's move toward safer packaging, a 2017 study published in JAMA Ophthalmology found that between 2012 and 2015, the number of chemical eye burns associated with laundry detergent pods among 3- to 4-year-old children skyrocketed from fewer than 20 to almost 500 per year. In 2015, these injuries were responsible for 26% of all chemical eye burns among this population.
In light of the dangers posed by the ingestion of pods by children, packaging manufacturers have committed to the development of child-resistant containers, the introduction of which has reduced the incidence of accidental ingestion of potentially hazardous substances by children under the age of 5. Whether this is due to the use of this type of packaging is not easily assessed, but there is no doubt that child-resistant packaging has made a positive contribution to this reduction. Given the increasingly frequent use of this type of packaging, it has become necessary to define its characteristics and relative testing methods in order to provide adequate guarantees and avoid confusion and misunderstandings in a sector of great importance for the safety of children.
To meet this need, UNI has published the UNI EN ISO 8317:2005 standard “Child-resistant packaging—Requirements and test procedures for reclosable packaging”. This standard establishes the characteristics that resealable packaging must have before being placed on the market (in particular for solvents, household hygiene products, strongly acid or alkaline preparations, substances used for gardening, etc.).
Child-resistant containers, when tested in accordance with the standards, must provide a satisfactory degree of resistance to opening by children but—at the same time—a sufficient level of accessibility to its contents by adults.
The test procedures should therefore be carried out in two stages: a test with children and a test with adults. The test with children is carried out in the presence of a supervisor and in an environment that is familiar to them: a group of no more than 200 children between the ages of 42 and 51 months is formed. The children must be selected so as to represent as faithfully as possible the different social, ethnic and cultural origins of the population as a whole, and not only of the area where the test is carried out. Each pair of children is given a number of packages to open by whatever means they wish to use. They have 10 minutes: if they cannot open or access the contents of the product in the first five minutes of the test, they must watch a single demonstration of opening the packaging by an adult; after which they have another five minutes to try to open the packaging.
The packaging is considered compliant if:
The vast majority of containers for detergent pods presently on the market are made of plastic materials, because of the need to provide the containers with elastic snap-engagement formations and locking elements which are necessary to ensure compliance with child-proof requirements.
One of the key goals nowadays is to achieve sustainable resource use, particularly in packaging solutions. Although plastic containers can be recycled when designed as single-material solutions, in common practice only 80% of that material can actually be recycled.
Furthermore, the global average recycling rate for plastic in 2019 was only 8%, making plastic an undesirable material from a sustainability perspective. Therefore, the use of plastic should be minimized.
All known solutions, however, fall far short of minimizing the amount of plastic when it comes to providing the functions and features expected from packaging.
Many containers are nowadays made to a greater or lesser extent of paper or cardboard which—as such—represent environmentally sustainable materials with a low environmental impact as they are totally recyclable.
However, the creation of child-proof containers made of paper or cardboard for detergent pods is a challenge, as it is difficult to make re-closable child-proof containers made of paper or cardboard that meet the requirements of child-resistant standards.
The object of the present invention is to provide an eco-sustainable container for detergent pods which overcomes the problems of the prior art.
More specifically the object of the present invention is to provide a child-proof re-closable container made of paper or cardboard.
In accordance with the present invention, these objects are achieved by a container according to claim 1.
According to another aspect, the invention relates to paper or cardboard blanks for manufacturing child-proof containers.
The claims form an integral part of the technical disclosure provided here in relation to the invention.
The present invention will now be described in detail with reference to the attached drawings, given purely by way of non-limiting example, wherein:
It should be appreciated that the attached drawings are schematic and various figures may not be represented in the same scale. Also, in various figures some elements may not be shown to better show other elements.
With reference to
In the embodiment shown in
The container body 12 and the movable cover 14 are produced starting from respective flat blanks 12′, 14′ having the shapes shown in
The container body 12 comprises a bottom wall 18 opposite the aperture 16, a pair of body front walls 20 parallel to each other and orthogonal to the bottom wall 18, and a pair of body side walls 22 parallel to each other and orthogonal to the bottom wall 18.
Each of the body side walls 22 comprises an outer layer 24 and an inner layer 26 overlapped to each other. The outer layer 24 has a through hole 28 and the inner layer 26 has a through window 30 facing the through hole 28 of the outer layer 24.
With reference to
The two second portions 36 forming the outer layer 24 may be fixed to the respective first portion 32 forming the inner layer 26, e.g. by glue.
With reference to
With reference to
The engagement tabs 48 and the through windows 30 may be located in central portions of the cover sides 44 and body side walls 22, respectively.
With reference to
With reference to
A user may release the cover 14 from the container body 12 by inserting a finger in each of the through holes 28 and pressing inwardly on the engagement tabs 48, so as to disengage the engagement tabs 48 from the respective through windows 30 and simultaneously raising the movable cover 14.
The operations necessary for removing the movable cover 14 are sufficiently complex to ensure that the paper or cardboard container 10 is child-proof compliant.
With reference to
A second embodiment of a paper or cardboard container 10 according to the invention is shown in
In the embodiment of
The movable cover 14 is hinged to the container body 12 along a hinge line 52 extending along a side of the top wall 42 of the movable cover 14 and along a top side of one of the front walls 20 of the container body 12.
In the embodiment of
With reference to
Also in the embodiment of
A third embodiment of a paper or cardboard container 10 according to the invention is shown in
In the third embodiment the movable cover 14 is hinged to the container body 12 as in the second embodiment. Also in this third embodiment the movable cover 14 and the container body 12 are produced starting from a single paper or cardboard blank 12′ having the shape shown in
The third embodiment is designed to improve the resistance to humidity as compared to the second embodiment. With reference to
With reference to
The intermediate layer 62 is formed by two sixth portions 70 connected to respective body front walls 20 of the container body 12 by respective sixth folding lines 72.
The inner layer 26 is formed by a seventh portion 74 connected to a distal edge of the respective fifth portion 66 by a seventh folding line 76. The through windows 30 and the respective flaps 50 are formed in the respective seventh portions 74.
In the embodiment of
With reference to
Of course, without prejudice to the principle of the invention, the details of construction and the embodiments can be widely varied with respect to those described and illustrated, without thereby departing from the scope of the invention as defined by the claims that follow.
Number | Date | Country | Kind |
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21166876.9 | Apr 2021 | EP | regional |