Method for transporting an alarmed container
The present invention relates to a method or process concerning the transportation of an alarmed container (1), particularly with regard to the transportation of valuable objects or valuable documents. The container (1) includes a first electronic unit (2) which functions to accept and permit deactivation and/or opening of the container, wherein the container is opened with the aid of a primary key (10) which includes a second electronic unit (12) that communicates with the first electronic unit (2) in respect of initiating opening of the container. The primary key (10) accompanies a person transporting the container (1) and the container is opened and/or its alarm system deactivated at its destination, with the aid of a code subset (AB) from the person-carried primary key (10) in co-action with a code subset (CD) obtained from a destination-located secondary key (20), therewith providing a total code-set (ABCD) required for initiating opening/deactivation of the container. When a transportation route (100) includes a number of delivery destinations/collection destinations (110, 120, 130), the secondary keys (20) having mutually varying code subsets are placed at said destinations, wherewith the aforesaid person-carried primary key (10) enables the container to be opened/deactivated in co-action with code subsets (CD, EF, GH) obtained from respective secondary keys (20) at respective destinations (110, 120, 130) over a chosen transportation route (100), for instance.
The present invention relates to a method concerning the transportation of an alarmed container in accordance with the preamble of the accompanying Claim 1. The invention also relates to an arrangement.
Containers or so-called security bags or cases used for the transportation of valuable objects or valuable documents, for instance, require the addition of a code-based opening procedure of a high security level.
Unfortunately, it is possible that a key by means of which the alarm system of the transportable container can be deactivated and/or the container opened will be stolen or come into wrong hands so that the alarm can be deactivated and/or the container opened at a geographical position other than that intended.
SE 0200169-1 teaches a solution to this problem that functions very efficiently in respect of fixed and regular delivery destinations.
However, the container may be collected and delivered along different temporary transportation routes, making it sometimes impossible to use a stationary, anchored second key (customer key/secondary key). It is also desired to be able to block the use of a lost customer key when considered necessary, without remaining customers along the transportation route being affected by the block, while, at the same time, obviating the need to change the coding of a first key (primary key) for this reason.
Accordingly, an object of the present invention is to provide a highly attractive and secure method or process that will, for instance, ensure that deactivation of the alarm system and/or the opening of a mobile/transportable container will be effected at the correct position along a transportation route. This object is achieved with the method having the characteristic features set forth in the accompanying Claims.
Among those advantages afforded by the present invention can be mentioned that said method provides a very high security level and also economic advantages. Even though an unauthorised person should obtain access to a customer key/secondary key, deactivation and/or opening of the mobile container can be prevented, for example, by remote blocking of the relevant customer key. This will prevent effectively so-called insider crime, meaning that a lost key will not constitute a security risk. The primary key can still be used as normal.
The invention will now be described in more detail by way of example and with reference to the accompanying drawing, in which
The transportation container 1 illustrated in
Also shown in
Any attempt to force a hole in the casing or to open said casing 11 will result in the destruction of the code content of the primary key 10. The primary key 10 may also include an operating button 13.
In order to enable the electronic unit 12 of the primary key 10 to be loaded with codes and possibly other information, there is provided an electric socket to which programming equipment can be connected temporarily. The key 10 also includes means 14 whereby the electronic unit 12 is able to communicate with the electronic unit 2 in the container 1 when necessary, for instance via electromagnetic waves (e. g. infrared light, so-called IR light).
To enable the electronic unit 2 of the container 1 to be loaded with codes and possibly other information, there is provided an electric socket to which programming equipment may be connected temporarily. The container 1 also includes means 3, which enable the electronic unit 2 to communicate with the electronic unit 12 of the primary key 10 when necessary, for instance via electromagnetic waves (e. g. infrared light, so-called IR light).
The communication between the electronic unit 12 of the primary key 10 and the electronic unit 2 of the container 1 is illustrated by a double arrow 50. The aforesaid communication may be a wireless communication, a range limited communication and based on IR light. Communication can also be achieved by means of a temporary male-female connection between concerned electronic units.
Also shown in
The electronic unit 22 of the secondary key 20 can be loaded with codes and possibly other information through the medium of an electric socket to which programming equipment can be connected temporarily. The key 20 also includes means which enable the electronic unit 22 to communicate with the electronic unit 2 of the container 1, either directly or via the primary key 10, for example with the aid of electromagnetic waves (e. g. infrared light, so-called IR light) or a temporary electrical power connection.
The secondary key 20 includes means for communicating with the primary key 10. These communications means may consist of one or more electric conductors 28 which can be connected temporarily to the primary key 10 via a connection point 30. In addition to code communication between the key 10 and the key 20, the conductor/conductors 28 may also transmit operating current to the key 20 from the electric power source of the key 10, thereby obviating the need to provide the key 20 with its own power source.
The modus operandi of the inventive method is, in principle, as follows. Let us assume that a complete code-set ABCD is required to initiate deactivation and/or opening of the transportable security container 1. Because the electronic unit 12 of the primary key 10 contains a first code subset corresponding to codes AB, for instance, and because the electronic unit 22 of the secondary key 20 contains a second code subset corresponding to codes CD, for instance, the two keys 10 and 20 will together contain the full code ABCD required to initiate deactivation and/or opening of the transportable container 1. Thus, both the primary key 10 and the secondary key 20 must be used simultaneously in order to enable the container 1 to be deactivated and/or lawfully opened. It is thus necessary to obtain a code interplay and/or dialog-like communication between the keys 10 and 20. This means that the container can only be deactivated and/or opened at specified destinations or geographical positions where an accepted secondary key 20 is kept. Because the primary key 10 contains solely the code subset AB when separate from the secondary key, the loss of the primary key 10 will not constitute a risk that unlawful access to the valuable contents of the container/case can be obtained solely by means of the key 10.
Thus, access to the container contents can only be achieved at the geographical positions at which the secondary key 20 is kept, at the same time as this destination is visited by a transportation responsible person in charge of the container 1 and the primary key 10. When necessary, the primary key 10 may be transported separately.
It will be understood that communication between the primary key 10 and the secondary key 20 may be a wireless and range limited communication, if so desired. For example, the secondary key 20 may be loaded with its code subset CD at a central station prior to separate distribution of said second key to its intended destination/place of use.
It will also be understood that communication between the keys 10, 20 and the security case or bag 1 may be highly advanced, involving a number of reciprocal code interchanges and code conversions. A central feature of the invention, however, is that the keys 10 and 20 share the full code-set required to initiate deactivation and/or opening of the container 1.
When the two keys 10 and 20 are coupled physically together with the container 1 in conjunction with deactivating and/or opening said container, the two keys may be supplied with electric current from the power source of container 1 if so desired.
It will be understood that many variations are possible within the scope of the invention with regard to the structural design and code contents of the keys 10,20 and also with regard to code conversion capacity. The keys 10 and 20 may operate in series and/or in parallel.
In the case of a transportation route 100 according to
The electronic unit 2 of the container 1 is programmed for the transportation route concerned prior to transportation of the container from the central station 200 by means of a transport vehicle 300, for instance. The full code set provided by the keys 10 and 20 in combination enable the container 1 to be deactivated/opened, provided that the container and/or said vehicle 300 arrive at the correct destination within a permitted time interval. The position of the container 1 and/or the vehicle 300 can be monitored, for instance, by means of a mobile telecommunications network, GPS, or by some other appropriate position indicating method. This enables route deviations and/or time deviations to be established and remedied.
The level of security can be further heightened by successively informing the person transporting the container of the identity of one single collection station/delivery station at a time, so that solely one nearby interval (a given route selection interval) of the total transportation distance will be known to said person.
Security can also be heightened by limitation of time windows, geographic windows, maximum permitted route deviations, and so on.
The choice of roads/routes and route patterns may, of course, be varied from time to time, etc. Such measures can be taken in order to make so-called insider crime more difficult to carry out.
For example, in order to further heighten the security level against robbery, for instance, the present invention may be supplemented with so-called real time protection, with which the container can only be opened at an intended delivery station during a specific time interval or time window. The security requirement may, of course, be adapted to correspond to risk assessments, and time requirements and position requirements may be excluded at times.
In the case of the transportation route exemplified in
In the case of the illustrated embodiment, the primary key 10 is programmed at the security central station 200 in respect of the customer or customers to be visited along a transportation route, wherewith the primary key 10 will normally contain a customer-specific code subset which is tied, for instance, to customer-destination security container 1. If several customers are to be visited along one and the same transportation route, a second customer may be allocated a second security container 1 co-acting with a second primary key that has a customer-specific code subset, and so on.
Respective security containers 1 thus have one single primary key that always contains the same code subset and therefore does not normally need to be reprogrammed between, for instance, mutually different transportation tasks for one and the same customer, therewith greatly facilitating handling and administration. A robbery carried out during transportation of the container will never be successful in opening the container without activating the alarm system, since only one code subset is found in the primary key 10 accompanying the transport vehicle. Lost secondary keys 20 can be blocked and replaced with another secondary key that contains a different code subset, and so on.
It will be seen that the physical construction of the primary key and the secondary key/secondary keys can be varied widely within the scope of the invention.
For example, the primary key may include GPS equipment for acceptance of opening destinations.
In a simple form, the secondary key may consist of a memory card or board, a memory wire (e. g. a so-called 1-WIRE from Maxim Integrated Products) or some other memory device which, in use, is docked with or coupled temporarily to the primary key. Such a secondary key does not require its own current supply. The serial number or manufacturing number of the secondary key may, in this case, consist of the code subset CD, etc.
As will be understood, it lies within the scope of the invention to give the primary key a simple construction and to place the complexity and/or the intelligence in the secondary key or keys.
It will thus be understood that many variations are possible within the scope of the present invention.
Claims
1. A method pertaining to the transportation of an alarmed container, particularly with respect to the transportion of valuable objects or valuable documents for instance, wherein the container (1) includes a first electronic unit (2) which can function to accept and permit deactivation and/or opening of the container, and wherein a primary key (10) by means of which the container can be opened includes a second electronic unit (12) for communication with the first electronic unit (2) so as to initiate opening of the container, characterised in that a person transporting the container (1) carries the primary key (10), wherein opening and/or deactivation of the container (1) at an intended destination is effected with the aid of a code subset (AB) from said person-carried primary key (10) in co-action with a code subset (CD) from a secondary key (20) located at said intended destination, said co-action providing a complete code-set (ABCD) for initialising opening/deactivation of said container.
2. A method according to claim 1, characterised in that the secondary key (20) includes a third electronic unit (22) that contains a subset (CD) of the complete code-set (ABCD) required to initiate deactivation and/or opening of the container (1).
3. A method according to claim 1, characterised in that in the case of a transportation route (100) that includes a number of delivery destinations/collecting destinations (110, 120, 130) there is placed at said destinations secondary keys (20) that have mutually varying code subsets; and that said person-carried primary key (10) in co-action with code subsets (CE, EF, GH) from respective secondary keys (20) enables the container to be opened/deactivated at respective destination places (110, 120, 130) along a transportation route (100), for instance.
4. A method according to claim 1, characterised in that opening/deactivation of the container in respect of a given destination (110, 120, 130) is limited to a given time interval.
5. A method according to claim 1 characterised in that opening/deactivation of a container in respect of a given destination (110, 120, 130) is limited to a limited geographical area.
6. A method according to claim 1, characterised by blocking a lost primary key (10) and replacing the lost key with a new primary key (10) containing a new code subset, and by modifying the opening code/deactivation code of the container (1) at the same time.
7. A method according to claim 1, characterised by blocking a lost secondary key (20) and replacing said lost key with a new secondary key (20) that contains a new code subset, and by modifying the opening code/deactivaation code-set of the container (1) at the same time.
8. An arrangement for carrying out the method according to claim 1, characterised in that the arrangement comprises a primary key (10) that includes an electronic unit (12) in which said code-subset is stored; and in that said electronic unit (12) is encapsulated in a first casing (11).
9. An arrangement according to claim 8, characterised in that said arrangement further comprises a secondary key (20) which includes an electronic unit (22) or a memory unit for storing a code subset; and in that said electronic unit (22) or memory unit is encapsulated in a second casing (21).
10. An arrangement according to claim 8, characterised in that the arrangement comprises a secondary key (20) that includes a memory unit in the form, e.g., of a memory card or a wire memory for storage of relevant code subsets, wherein e.g. the serial number of said memory unit constitutes a relevant code subset (CD, EF, GH, etc.).
11. The use of a primary key (10) and a number of secondary keys (20) in accordance with claim 1 characterised in that the keys (10, 20) are used in conjunction with security transport to different geographical destinations.
12. A method according to claim 2, characterised in that in the case of a transportation route (100) that includes a number of delivery destinations/collecting destinations (110, 120, 130) there is placed at said destinations secondary keys (20) that have mutually varying code subsets; and that said person-carried primary key (10) in co-action with code subsets (CE, EF, GH) from respective secondary keys (20) enables the container to be opened/deactivated at respective destination places (110, 120, 130) along a transportation route (100), for instance.
13. An arrangement according to claim 9, characterised in that the arrangement comprises a secondary key (20) that includes a memory unit in the form, e.g., of a memory card or a wire memory for storage of relevant code subsets, wherein e.g. the serial number of said memory unit constitutes a relevant code subset (CD, EF, GH, etc.).
14. An arrangement for carrying out the method according to claim 2, characterised in that the arrangement comprises a primary key (10) that includes an electronic unit (12) in which said code-subset is stored; and in that said electronic unit (12) is encapsulated in a first casing (11).
15. An arrangement for carrying out the method according to claim 3, characterised in that the arrangement comprises a primary key (10) that includes an electronic unit (12) in which said code-subset is stored; and in that said electronic unit (12) is encapsulated in a first casing (11).
16. An arrangement for carrying out the method according to claim 4, characterised in that the arrangement comprises a primary key (10) that includes an electronic unit (12) in which said code-subset is stored; and in that said electronic unit (12) is encapsulated in a first casing (11).
17. An arrangement for carrying out the method according to claim 5, characterised in that the arrangement comprises a primary key (10) that includes an electronic unit (12) in which said code-subset is stored; and in that said electronic unit (12) is encapsulated in a first casing (11).
18. The use of a primary key (10) and a number of secondary keys (20) in accordance with claim 2, characterised in that the keys (10, 20) are used in conjunction with security transport to different geographical destinations.
19. The use of a primary key (10) and a number of secondary keys (20) in accordance with claims 3, characterised in that the keys (10, 20) are used in conjunction with security transport to different geographical destinations.
20. The use of a primary key (10) and a number of secondary keys (20) in accordance with claim 4, characterised in that the keys (10, 20) are used in conjunction with security transport to different geographical destinations.
Type: Application
Filed: Jan 22, 2003
Publication Date: Oct 13, 2005
Inventor: Kjell Lindskog (Skelleftea)
Application Number: 10/502,020