[0001] This invention is concerned with packaging. It is sometimes desirable to package
several articles individually within a common pack to enable the consumer to remove
the articles in turn for use. The invention relates in particular to the packaging
of small batteries as may be used to power personal appliances such as hearing aids.
In the case of appliances, like hearing aids, which tend to be used continuously,
battery life is relatively short and users generally wish to carry spare batteries
with them and to purchase batteries several at a time, for example in packs of four
or six batteries. It is known, therefore, to package batteries in groups of 4 or 6
in plastic cases for sale to customers. A type of small battery well suited to appliances
such as hearing aids is a zinc air battery. A zinc air battery includes a small air
hole in its metal casing and the air hole must be exposed for the battery to function.
However, even if the battery is not being used to power an appliance, it can lose
its power, typically in about three months, if the air hole is exposed. For this reason
it is necessary for the air hole to be sealed closed from the time of manufacture
of the battery until it is to be fitted into an appliance.
[0002] EP-A-0 529 199 discloses a push-through, blister card package for zinc-air batteries
including a cardboard support to which is sealed a transparent plastic foil with cup-shaped
recesses for holding button cells. The battery bases, which are provided with air
supply holes, are attached to a shared adhesive foil. When a battery is pushed through
the support, which is perforated in the region for battery removal, the adhesive foil
automatically detaches from the battery while remaining an integral part of the package.
[0003] US-A-4 209 091 discloses a button cell package with hingedly connected cover and
base portions in which button cells are releasably retained in position by an adhesive
surface layer on a laminated structure having a resilient layer between the adhesive
layer and a nonresilient base. An additional layer having preferential barrier properties
is used with cells of the metal-air type and is located between the adhesive surface
layer and the resilient member. The adhesive layer seals the metal-air cell to increase
cell shelf life and prevents inadvertent dislodgement and loss of cell capacity, yet
permits small amounts of evolved hydrogen to diffuse from the cell. The resilient
layer serves as a cushion and provides a means for obtaining maximum surface contact
between the adhesive surface layer and the button cell surface to maintain the cell
in impact-resistant, releasable adhesive contact with the adhesive layer.
[0004] A technique which has been used for the packaging of DURACELL ACTIVAIR zinc air batteries
is to cover the air hole by applying an adhesive plastics disc to the battery, this
disc having a tab portion which protrudes beyond the edge of the battery for ease
of grasping the disc for removal from the battery when the battery is required for
use. The known DURACELL ACTIVAIR battery package, which hold e.g. 4 or 6, batteries
equipped with their individual sealing discs, comprises a plastics container including
a base formed with pockets to receive and retain the respective batteries, and a cover
hinged to the base for movement between a closed position in which the cover and base
form an enclosure enclosing the batteries, and an open position providing access to
the enclosed batteries for removal of individual batteries. Whilst these battery packages
are quite convenient for consumers, they are not without drawbacks from a manufacturing
viewpoint. Batteries with the sealing discs applied thereto make automated filing
of the containers difficult to achieve and as a consequence it has been the practice
to load the batteries into the pockets of the container base manually, which is inefficient.
[0005] The present invention addresses the foregoing drawback and as a solution it proposes
a package comprising a base with a plurality of pockets, respective articles being
received in the pockets, and a unitary element of flexible sheet material including
a spine portion adhered to the base, and an article covering portions connected to
the spine portion and extending over respective pockets, the covering portions being
adhesively connected to the articles received in the pockets.
[0006] Where the articles are batteries, in particular zinc air batteries, the covering
portions will cover and seal closed the air holes of the batteries until they are
required for use. As the unitary sheet material element is adhesively attached to
the base, it can assist in retaining the batteries in their pockets, which means that
the pockets themselves are not solely responsible for keeping the batteries in place
and, therefore, need not grip the batteries firmly, thereby allowing the pockets to
be formed to broader manufacturing tolerances and possibly enabling easier removal
of individual batteries from their pockets. When a battery is required for use, it
is lifted from its pocket, the flexibility of the sheet element permitting such removal,
and the battery is peeled away from the covering portion to which it is adhesively
attached. To assist the battery removal the covering portions of the sheet element
preferably include tabs which project in a direction away from the spine portion.
By holding a tab in the fingers and pulling it away from the base, the associated
covering portion will be deflected and lift the battery adhered thereto from its pocket.
[0007] The use of a unitary element of flexible sheet material to cover the batteries facilitates
automation of the packaging process since such an element can be applied by a conventional
labelling machine after the batteries have been loaded into the pockets, which in
turn means that the batteries can be simultaneously loaded into the pockets by means
of an automated filling machine.
[0008] In accordance with one aspect of the invention, there is provided a package comprising:
a base with a plurality of pockets, adapted to receive articles therein; and
a unitary element of flexible sheet material including a spine portion adhered to
said base, article covering portions comprising a portion of said flexible sheet connected
to the spine portion and extending over the respective pockets, the covering portions
being adhesively connected to the articles received in the pockets and being strippable
from said articles; characterized by
a cover over said covering portions of said flexible sheet, said cover being removable
from said covering portions of said flexible sheet.
[0009] In accordance with a second aspect of the invention there is provided a method of
packaging articles characterized by comprising the steps of:
i) providing a base having a plurality of separate pockets for accommodating respective
articles;
(ii) loading articles into the pockets by means of an automated filling machine;
(iii) applying a unitary element of flexible sheet material over the base and the
articles loaded into the pockets by means of an automated labelling machine, the element
including a spine portion adhesively attached to the base (2), and article covering
portions (17) adhesively attached to the respective articles; and
(iv) providing a cover over said covering portions of said flexible sheet, said cover
being removable from said covering portions of said flexible sheet.
[0010] Most conveniently the flexible sheet elements are supplied to the labelling machine
in the form of a strip with a series of elements carried on a backing web.
[0011] A more detailed description of the invention will now be given with reference to
the accompanying drawings, in which:
Figure 1 shows in perspective a zinc air battery package embodying the invention,
the package being shown in a closed condition;
Figure 2 shows the package of Figure 1 in an open condition and in front elevation;
Figures 3 and 4 show the package of Figure 2 in plan and side elevation, respectively;
Figure 5 is a front elevation of the container base before the pockets are filled
with batteries; and
Figure 6 shows schematically an apparatus for performing the packaging process.
[0012] The zinc air battery package illustrated in the drawing includes a plastics container
1 moulded in one piece and including a base 2 and a cover 3 connected to the base
by an integral hinge 4 to allow the cover to move between the closed and open positions
shown in Figures 1 and 2 respectively. To maintain the cover in the closed condition
complementary snap-catch formations 5, 6 are provided at the edges of the base and
cover remote from the hinge 4. The container base 2 is formed on its inner or upper
side with a slightly raised platform or plinth 10 on which is an upstanding longitudinal
rail 11 defining a substantially flat upper surface 9 (Fig. 5). On either side of
the rail 11 there are formed pockets 12 (Fig. 5) in which respective zinc air batteries
14 are accommodated. As shown there are a total of six pockets arranged in three pairs,
the pockets 12 of each pair being laterally opposed with respect to the rail 11. The
batteries 14 are conventional and cylindrical in shape. When inserted into the pockets
12 the upper flat faces of the batteries, these being the faces in which the air holes
are provided, lie substantially coplanar with the upper surface of the rail 11. Applied
over the base 2 and the batteries 14 accommodated in the pockets is a unitary element
15 of flexible plastics sheet material. The element includes a spine portion 16 which
overlies and is adhesively connected to the upper surface 9 of the rail 11. Extending
from the spine portion are six covering portions 17 disposed to overly the respective
pockets 12 and the batteries 14 received therein. These covering portions 17 are adhesively
attached to the respective underlying batteries 14. Each covering portion has a tab
18 projecting in a direction opposite the spine portion 16 beyond the edge of the
associated battery 14 and the pocket 12 in which it is received. Although the material
of the sheet element 15 is flexible it has sufficient stiffness to maintain the substantially
flat condition in which it is applied over container base 2 and batteries 14, and
hence the sheet element 15 assists in retaining the batteries on the base in spite
of the batteries having a loose fit in the pockets. When an individual battery is
required for use, the tab 18 of the covering portion 17 to which the battery is attached
is manually grasped, e.g. between the thumb and forefinger and moved away from the
base 2, whereby the battery 14 is lifted out of its pocket 12, the element 15 naturally
bending at the join between the spine and covering portions 16, 17. The battery is
then peeled away from the covering portion 17, the adhesive allowing this to be achieved
without undue difficulty.
[0013] It will be appreciated that modifications can be made to the described package without
departing from the inventive principles. In particular the shape and size of the pockets
can be varied to suit the particular batteries to be packaged. Of course, the number
of pockets will be chosen according to the number of batteries to be included in the
package.
[0014] The described package can be produced by the following process. The moulded containers
1 are fed to an automated filling machine 20 (Fig. 6) which is also supplied with
batteries 14. The filling machine simultaneously fills the pockets 12 of the container
base by loading respective batteries 14 into the pockets 12, the batteries all having
their surfaces with the air holes uppermost. The containers with batteries loaded
therein are delivered in turn to an automated labelling machine 21 which applies the
sheet element 15 onto the container base 2 and batteries 14 so that it covers and
is adhesively secured to the upper surfaces of the rail I and the batteries. The sheet
elements 15 are supplied to the libelling machine as a strip, e.g. supplied from a
roll, the strip including a backing web 22 on which the elements 15 are carried and
to which they are removably attached by the same adhesive used to secure the elements
to the container base and the batteries. The labelling machine removes individual
elements from the backing web before the labelling machine removes individual elements
from the backing web before applying them.
[0015] While it is apparent that modifications and changes can be made within the scope
of the present invention, it is our intention however, only to be limited by the appended
claims.
1. A package comprising:
a base (2) with a plurality of pockets (12), adapted to receive articles therein;
and
a unitary element (15) of flexible sheet material including a spine portion (16) adhered
to said base (2), article covering portions (17) comprising a portion of said flexible
sheet connected to the spine portion (16) and extending over the respective pockets
(12), the covering portions (17) being adhesively connected to the articles received
in the pockets (12) and being strippable from said articles; characterized by
a cover (3) over said covering portions (17) of said flexible sheet, said cover (3)
being removable from said covering portions (17) of said flexible sheet.
2. A package according to claim 1, further comprising:
a container (1) including said base (2), and said removable cover (3) said cover (3)
being movable relative to the base (2) to open and close the container (1), and wherein
said articles are batteries (14) received in respective pockets (12).
3. A package according to claim 1 or 2, wherein the covering portions (17) are arranged
in opposed pairs extending from opposite sides of the spine portion (16).
4. A package according to any of claims 1-3, wherein each covering portion (17) includes
a tab (18) projecting therefrom in the direction away from the spine portion (16).
5. A method of packaging articles
characterized by comprising the steps of:
(i) providing a base (2) having a plurality of separate pockets (12) for accommodating
respective articles;
(ii) loading articles into the pockets (12) by means of an automated filling machine
(20);
(iii) applying a unitary element (15) of flexible sheet material over the base (2)
and the articles loaded into the pockets (12) by means of an automated labelling machine
(21), the element including a portion adhesively attached to the base (2), and article
covering portions (17) adhesively attached to the respective articles; and
(iv) providing a cover (3) over said covering portions (17) of said flexible sheet,
said cover (3) being removable from said covering portions (17) of said flexible sheet.
6. A method according to claim 5, which comprises simultaneously loading batteries (14)
into the pockets (2).
7. A method according to claim 5 or 6, wherein the automated labelling machine (21) is
supplied with a series of flexible elements (15) carried on a backing web (22).
1. Gehäuse, das folgendes umfasst:
eine Basis (2) mit einer Mehrzahl von Taschen (12), die darin Gegenstände aufnehmen
können;
und
ein unitäres Element (15) aus einem flexiblen Lagenmaterial mit einem an der genannten
Basis (2) haftenden Rückenabschnitt (16), Abschnitten (17) zum Abdecken von Gegenständen,
mit einem Teilstück der genannten flexiblen Lage, das mit dem Rückenabschnitt (16)
verbunden ist und sich über die entsprechenden Taschen (12) erstreckt, wobei die Abdeckabschnitte
(17) eine Klebeverbindung mit den in den Taschen (12) aufgenommenen Gegenständen aufweisen
und von den genannten Gegenständen abgezogen werden können, gekennzeichnet durch:
eine Abdeckung (3) über den genannten Abdeckabschnitten (17) der genannten flexiblen
Lage, wobei die genannte Abdeckung von den genannten Abdeckabschnitten (17) der genannten
flexiblen Lage entfernt werden kann.
2. Gehäuse nach Anspruch 1, wobei dieses ferner folgendes umfasst:
einen Behälter (1), der die genannte Basis (2) sowie die genannte entfernbare Abdeckung
(3) aufweist, wobei die genannte Abdeckung (3) im Verhältnis zu der Basis (2) beweglich
ist, um den Behälter (1) zu öffnen und zu schließen, und wobei es sich bei den genannten
Gegenständen um Batterien (14) handelt, die in entsprechenden Taschen (12) aufgenommen
werden.
3. Gehäuse nach Anspruch 1 oder 2, wobei die Abdeckabschnitte (17) in entgegengesetzten
Paaren angeordnet sind, die sich von entgegengesetzten Seiten des Rückabschnitts (16)
erstrecken.
4. Gehäuse nach einem der Ansprüche 1 bis 3, wobei jeder Abdeckabschnitt (17) einen von
diesem in eine von dem Rückenabschnitt (16) weggehende Richtung vorstehenden Ansatz
(18) aufweist.
5. Verfahren zur Verpackung von Gegenständen, wobei das Verfahren
dadurch gekennzeichnet ist, dass es die folgenden Schritte umfasst:
(i) Vorsehen einer Basis (2) mit einer Mehrzahl einzelner Taschen (12) zur Aufnahme
entsprechender Gegenstände;
(ii) Laden von Gegenständen in die Taschen (12) durch eine automatische Füllmaschine
(20);
(iii) Auftragen eines unitären Elements (15) aus einem flexiblen Lagenmaterial über
der Basis (2) und den durch eine automatische Etikettierungsmaschine (21) geladenen
Gegenständen, wobei das Element einen Abschnitt aufweist, der klebend an der Basis
(2) angebracht ist, und wobei Abschnitte (17), die Gegenstände abdecken, haftend an
den entsprechenden Gegenständen angebracht sind; und
(iv) Vorsehen einer Abdeckung (3) über den genannten Abdeckabschnitten (17) der genannten
flexiblen Lage, wobei die genannte Abdeckung (3) von den genannten Abdeckabschnitten
(17) der genannten flexiblen Lage entfernt werden kann.
6. Verfahren nach Anspruch 5, welches das gleichzeitige Laden von Batterien (14) in die
Taschen (2) umfasst.
7. Verfahren nach Anspruch 5 oder 6, wobei die automatische Etikettiermaschine (21) mit
einer Reihe flexibler Elemente (15) versorgt wird, die auf einer Trägerbahn (22) getragen
werden.
1. Emballage comprenant :
une base (2) ayant une pluralité d'alvéoles (12) adaptées pour recevoir des articles
dans celles-ci ; et
un élément unitaire (15) en un matériau en feuille flexible comprenant une partie
d'arête centrale (16) collée à ladite base (2), des parties de recouvrement d'articles
(17) comprenant une partie de ladite feuille flexible reliée à la partie d'arête centrale
(16) et s'étendant sur les alvéoles respectives (12), les parties de recouvrement
(17) étant attachées par adhésif aux articles logés dans les alvéoles (12) et pouvant
être détachées desdits articles ; caractérisé par
un couvercle (3) par-dessus lesdites parties de recouvrement (17) de ladite feuille
flexible, ledit couvercle (3) pouvant être séparé desdites parties de recouvrement
(17) de ladite feuille flexible.
2. Emballage selon la revendication 1, comprenant en outre :
un coffret (1) comprenant ladite base (2) et ledit couvercle amovible (3), ledit couvercle
(3) étant mobile par rapport à la base (2) de façon à ouvrir et fermer le coffret
(1), et dans lequel lesdits articles sont des piles (14) logées dans des alvéoles
respectives (12).
3. Emballage selon la revendication 1 ou 2, dans lequel les parties de recouvrement (17)
sont agencées par paires opposées s'étendant depuis des bords opposés de la partie
d'arête centrale (16).
4. Emballage selon l'une quelconque des revendications 1 à 3, dans lequel chaque partie
de recouvrement (17) comprend une languette (18) dépassant de celle-ci dans la direction
opposée à la partie d'arête centrale (16).
5. Procédé d'emballage d'articles,
caractérisé en ce qu'il comprend les étapes consistant à :
(i) préparer une base (2) ayant une pluralité d'alvéoles séparées (12) adaptées pour
loger des articles respectifs ;
(ii) charger des articles dans les alvéoles (12) à l'aide d'une machine de remplissage
automatisée (20) ;
(iii) appliquer un élément unitaire (15) en un matériau en feuille flexible sur la
base (2) et les articles chargés dans les alvéoles (12) à l'aide d'une machine d'étiquetage
automatisée (21), l'élément comprenant une partie fixée par adhésif à la bàse (2)
et des parties de recouvrement d'articles (17) fixées par adhésif aux articles respectifs
; et
(iv) placer un couvercle (3) sur lesdites parties de recouvrement (17) de ladite feuille
flexible, ledit couvercle (3) pouvant être séparé desdites parties de recouvrement
(17) de ladite feuille flexible.
6. Procédé selon la revendication 5, qui comprend l'étape consistant à charger simultanément
plusieurs piles (14) dans les alvéoles (2).
7. Procédé selon la revendication 5 ou 6, dans lequel il est délivré à la machine d'étiquetage
automatisée (21) une série d'éléments flexibles (15) maintenus sur une bande de support
(22).