DE10064426C2 - Portable data carrier with holder for a removable battery - Google Patents

Description

The invention relates to a portable data carrier with a battery for a replacement battery.

A data carrier of this type is known from DE 41 43 442 C2. In it proposed an IC card with an integrated circuit for Energy supply of the electronic components contains a battery. The Bat series is used in a separate battery holder, which in turn is connected a narrow side of the card between the cover layers of the card is inserted. The battery holder can be used to change the battery be pushed out of the card and put back in again. Aim of the pre suggested solution is the battery intake and the battery contained therein to protect against dirt, dust etc. This should be achieved by between the battery holder and the adjacent map layers Sealing rings are provided.

The known solution is structurally complex and more expensive to manufacture development of a chip card considerably. On the other hand, chip cards will be used in the future increasingly have features that have their own energy supply need care. An example of this are displays on which Chipkar Data can be displayed at any time regardless of a chip card terminal are.

DE 41 35 512 C2 describes a portable data carrier in the form of an IC Card known, which has a battery receiving area, in one, in a battery holder mounted button cell type battery can be inserted. The The solution offers only limited convenience in terms of handling.

DE 195 35 324 C1 describes a chip card which can be separated from one another ren housing parts which enclose a cavity in which replaceable  a battery is arranged. The solution is structurally complex and demanding to use.

From DE 44 19 073 A1 the proposal is also known, an on took for a SIM card in an adapter card so that the SIM card is held in position due to friction and without Tool can be inserted and removed. The interaction between SIM The card and adapter card are only mechanical.

The object of the present invention is therefore to provide a chip card To provide, which is easier to manufacture and an uncom allows you to change batteries.

This task is solved by a data carrier with the characteristics of independent claim 1.  

Advantageous embodiments of the invention are in the dependent An sayings.

According to the invention, the battery is not one of the actual chip card independent battery holder used, but in a battery Recording which is an integral part of the chip card and the example is formed by a side compartment. This integrated bat The dimensions of the receptacle are directly related to the shape of the increasing replaceable battery adapted, with contact areas in the on are provided to record the mechanical fixation of the serve the interchangeable battery, for example by snapping it in, by raising it Friction, by jamming and the like.

To make it easy to change the replacement battery, invented according to the invention further provided that the battery holder at least a chip card surface is open to direct access to the To enable exchangeable battery from the chip card surface and the Remove the removable battery from the battery holder.

In the case of a chip card inserted laterally, the card user can through the opening in the chip card surface from above onto the battery push and push it out of the card with a side push Ejecting. Preferably the opening is as one to the side one adjacent semicircular recess between the bat teriaufnahme and the chip card surface so that the card is easy to grasp with the tip of the thumb.

Another embodiment of the invention provides that the access opening voltage on the chip card surface is so large that the removable battery  from the chip card surface into the battery holder can be set. The mechanical fixation of the replacement battery in the In this case, the battery is attached to the side of the removable battery adjacent recesses extending in the map plane or Projections of the battery holder with the corresponding projections interact or recesses of the replaceable battery. The changes Selbatterie can be pressed into the battery holder designed in this way the, with projections and recesses snap into one another. The The exchangeable battery is then replaced by arching the Chipkar te to release the engagement of the projections from the recesses.

A further embodiment of the invention provides for the battery holder as a web-like, thin area of the card on which the battery is to be placed is pushed so that it surrounds the web on all sides and on the web jammed or locked with it.

In all of the aforementioned embodiments, the contact areas can be connected to the mechanical fixing of the battery formed by the line connections be used to supply at least one component of the chip card electrical energy are present anyway. The line connections fun then yaw as clamping or locking elements.

The aforementioned embodiments are inexpensive to manufacture and allow easy replacement of the battery. Because the Battery not in a separate battery holder from the chip card is taken, the map material in the area of the battery holder can strengthen ker be trained, which positively affects the stability of the card acts. By using a flat battery, the thickness of the adjacent  Map layers further increased and thus the stability of the map be further increased.

The invention is described below with reference to the accompanying drawings explained in a playful way. Show in it

Fig. 1 schematically shows a data carrier in the form of a chip card with seitli chem slot for a change of battery,

FIG. 2 shows the card from FIG. 1, partially broken away, with an exchangeable battery inserted;

Fig. 3 shows schematically the arrangement of a removable battery in a card ge according to Fig. 2;

Fig. 4 schematically shows a card produced by injection molding;

Fig. 5 shows schematically a prepared cold lamination card;

Fig. 6 shows schematically a hot lamination process produced in the card;

Figure 7 is a map with anchored in the battery receiving exchange battery.

FIG. 8 the card according to FIG. 7 in the arched state for removing the replacement battery;

Fig. 9 shows a change of battery with an electronic device; and

Fig. 10 shows schematically a cross section through a card with an inserted U-shaped battery.

Fig. 1 shows a laminated, portable data carrier 10 with three layers 11 , 12 , 13 , for which the shape of a chip card is adopted in the following. The three layers a card body 12 , an upper cover layer 11 and a lower cover layer 13 . The surfaces 11 a and 13 a of the cover layers 11 , 13 are substantially plane-parallel to one another. On a side surface 121 of the chip card 10 , a battery receptacle 14 in the form of a slot is formed in the card body 12 . An exchangeable battery 20 with "+/-" poles lying on opposite sides is inserted into this insertion compartment 14 in the direction of the arrow. Fig. 2 shows the chip card 10 with inserted removable battery 20 , the cover layer 11 and card body 12 are shown partially broken away.

In the upper cover layer 11 , an access opening 15 in the form of a semicircular recess is provided above the insertion compartment 14 to support easy replacement of an exchangeable battery 20 . This allows a card user to access a removable battery 20 inserted into the card 10 with his finger or thumb if necessary and to move it out of the slot 14 using pressure.

Fig. 3 shows a cross section of a chip card 10 with inserted replacement battery 20th Then the inserted replaceable battery 20 is clamped between the line connections (contact areas) 16 , 17 . The interchangeable battery 20 is clamped in the slot 14 by the elasticity of the upper and lower cover layers 11 , 13 of the card 10 , which are usually made of plastic material. An elastic design of the line connections 16 , 17 can additionally increase the clamping effect. The electrical connection of the two line connections 16 , 17 to a construction part of the chip card 10 takes place in a conventional manner and is therefore not shown in FIG. 3. The same applies to the electrical component supplied with power itself.

In Figs. 4 to 6 are various manufacturing variants for the production of a chip card 10 according to FIGS. 1 to 3 illustrates, again of the card is tet verzich on a representation of the individual electronic components.

FIG. 4 first shows a chip card 10 produced by injection molding, which consists only of a card body 12 without cover layers. Cover layers can, however, also be laminated on later. The line connections 16 , 17 are designed together with the connected conductor track as an inlet 18 , which can carry further electronic components of the chip card 10 , such as the chip itself. The inlet 18 is plugged onto a slide of an injection molding tool projecting into the injection mold. The slide has the shape of the battery receptacle 14 . After Spritzgußvor gear is thereby a card body 12 with integrated conductor track 18, inte grated lead terminals 16, 17 and a finished formed Batte rieaufnahme 14 before, wherein the lead terminals 16, 17 are immediately adjacent to the battery accommodating fourteenth After the injection molded part has been removed from the mold, the replaceable battery 20 can be inserted into the battery receptacle 14 in the manner described above.

Fig. 5 shows a chip card produced cold lamination 10th Here, the contact tracks 16 , 17 are inserted between the upper cover layer 11 and the card body 12 on the one hand and between the card body 12 and the lower cover layer 13 on the other hand in boundary layers 19 which are glued in the cold lamination process. The card body 12 and the upper cover layer 11 are prepared before the lamination process, for example in a punching process, so that the finished card 10 has both the semicircular recess 15 and the slot 14 .

Fig. 6 shows a smart card produced in the hot lamination process 10th In order to prevent deformation of the cover layers in the region of the recess 14 during the hot lamination process, the battery receptacle is filled by a placeholder 21 during the lamination process. The place holder 21 can, for example, be made of a thermosetting plastic, so that it does not connect to the adjacent plastic layers during the lamination process and can easily be exchanged for an exchangeable battery 20 . Moreover, the production method 6 corresponds to the card according to Fig. The manufacturing method of the card according to Fig. 5.

In Fig. 7 shows an alternative embodiment of the battery receptacle 14 in a chip card 10. Part of the chip card 10 with the battery holder 14 is shown in section. This is not designed as a slide-in but as a single compartment. The change of the battery 20 will not be inserted laterally but from the card surface 11 a of the card 10 and zen the Einset is not made via a narrow side of the battery 20 but, as in Fig. Indicated by double arrow 8, over the entire Batterieumriß. Accordingly, the cross section of the opening 15 is formed large. The battery 20 has projections 22 which are designed as insert wings to engage in recesses (contact areas) 32 in the card body 12 . The battery 20 is firmly anchored in the card body 12 by means of the insert wings. Alternatively, before the jump 22 can also be part of the battery holder 14 ; then the cutout 32 is provided accordingly on the battery 20 to enable anchoring between the recess 32 and the projection 22 . In order to enable a change of the battery 20 in a simple manner, the anchoring tion is expediently provided only on two opposite sides of the battery 20 .

The battery 20 is inserted and replaced, as indicated in FIG. 8, by bulging the chip card 10 . The insert wing 22 loosen from the cutouts 32 of the card body 12 and the battery 20 can be moved in the direction of the arrow. The insert wings 22 are made comparatively large in FIGS. 7 and 8 as an extreme example. In practice, they can be made substantially smaller, provided that the battery 20 is locked or anchored in the battery receptacle 14 . In particular, the projections 22 can be designed such that the battery 20 snaps into the battery 14 in a simple manner by exerting pressure on the battery 20 from above. In all cases, the battery 20 is replaced by arching the card 10 , as shown in FIG. 7.

The chip card 10 shown in FIGS. 7 and 8 is also suitable for the production processes described with reference to FIGS. 4 to 6, in particular for the plastic injection molding process according to FIG. 4, the demolding of the injection-molded card 10 from the injection molding tool by arching the card , as shown in Fig. 8, can be done.

The surface of the battery 20 can be equipped with an application 23 , for example a layout print, a hologram or a printed film glued to it. This prevents the optical appearance of the chip card 10 from being impaired by a battery 20 inserted into the card.

The card shown in FIGS . 7 and 8 is further suitable for use with a special battery 20 which carries one or more electronic components 24 on its surface as a component, such as a key switch or a display. Especially when the replaceable battery 20 is designed as a large flat battery, it is advisable to equip these large areas immediately with electronic components. This can reduce the effort and costs involved in producing chip cards.

In Fig. 10, a further embodiment of the invention is shown. The replaceable battery 20 is now designed as a U-shaped flat battery, which is pushed onto a portion of the card body 12 designed as a web 33 ben. The U-shaped replaceable battery 20 is flush with the side surface and the surfaces 11 a, 13 a of the chip card 10 , so that the card 10 as a whole meets the standard dimensions. Accordingly, the web 33 is formed as a ver young area of the chip card 10 , which is offset from the two surfaces 11 a, 13 a towards the central plane of the chip card 10 and ends at a distance a in front of the side surface of the chip card 10 .

The two legs of the U-shaped battery 20 form a clamp connection with the adjoining line connections 16 , 17 . In addition, the battery 20 may have cams or similar elements with which the legs of the battery 20 snap behind the line connections 16 , 17 releasably.

Claims (9)

1. A portable data carrier (10) having two substantially plane-parallel upper surfaces (11 a, 13 a) and a battery receptacle (14) for a change of battery (20), wherein the battery holder (14) at least two pipe connections (16, 17) for supplying having a component of the data carrier ( 10 ) with electrical energy through the exchangeable battery ( 20 ) to be accommodated,
and wherein the battery holder ( 14 )
is an integral part of the data carrier ( 10 ),
its dimensions are adapted for the immediate reception of an exchangeable battery ( 20 ) to be recorded,
Has contact areas ( 16 , 17 ; 32 ) for mechanically fixing the replaceable battery ( 20 ), and
at least one surface ( 11 a) of the data carrier ( 10 ) is open, so that access to the removable battery ( 20 ) from this surface ( 11 a) is possible to remove the removable battery ( 20 ) from the battery receptacle ( 14 ) , 2. Data carrier according to claim 1, characterized by a designed as a flat battery replacement battery ( 20 ). 3. Data carrier according to claim 1 or 2, characterized in that the battery receptacle ( 14 ) as a slot on one of the side surfaces ( 121 ) and the access opening ( 15 ) as a semicircular recess adjacent to this side surface ( 121 ) in a surface ( 11 a) are formed so that the male exchange battery (20) in case of their REPLACE development of the card surface (11 a) of access and the exchange battery (20) can be pushed out of the battery receptacle (14) laterally. 4. A data carrier according to claim 1 or 2, characterized in that the battery receptacle ( 14 ) is formed as an adjoining one of the side surfaces of the tapering of the data carrier ( 10 ), the tapered region of the data carrier being one of the two surfaces ( 11 a, 13 a) to the medium level ne of the data carrier web ( 33 ) which ends at a distance (a) from the side surface and onto which the removable battery ( 20 ) can be pushed so that it encloses the web ( 33 ). 5. A data carrier according to claim 4, comprising a U-shaped battery ( 20 ). 6. A data carrier according to claim 1 or 2, characterized in that the battery receptacle ( 14 ) as an insertion compartment and the access opening ( 15 ) are so large that a removable battery ( 20 ) to be received from one of the surfaces ( 11 a, 13 a) inserted into the battery receptacle (14) who can the, wherein the contact portions (32) of the battery receptacle (14) for mechanical fixing of the male exchange battery (20) adjacent the side of the male exchange battery (20), extending in the card plane recesses (32) or projections are formed. 7. A data carrier according to claim 6, comprising an exchangeable battery ( 20 ) with projections ( 22 ) or recesses for cooperation with corresponing recesses ( 32 ) or projections of the battery receptacle ( 14 ), the exchangeable battery ( 20 ) being replaced by bulges the data carrier ( 10 ) can be detached from the battery holder ( 14 ). 8. Data carrier according to one of claims 1 to 7, characterized in that the contact areas ( 16 , 17 ; 32 ) for mechanical fixing of the removable battery to be taken ( 20 ) through the line connections ( 16 , 17 ) are formed, which as clamping elements or Locking elements act. 9. Data carrier according to one of claims 1 to 8, comprising a removable battery ( 20 ) with at least one in the access opening ( 15 ) arranged electronic component ( 24 ).