WO2017085523A1 - Portable security holder - Google Patents

Abstract

The subject of the invention relates to a portable security holder which has a housing (10) enclosing a storage space (11) and at least one opening (12), a cover body (13) that may be stably fixed to the housing (10) and that seals the opening (12), and an energy source (3), sensor unit (20), information forwarding unit (30) and control unit (40) connected to these located in the housing (10) and/or the cover body (13), furthermore, there is a lock structure (50) inserted between the housing (10) and the cover body (13), where the lock structure (50) has a first locking part-unit (51) connected to the housing (10) and a second locking part-unit (52) connected to the cover body (13), the sensor unit (20) has a geo positioning part-unit (21), a motion sensor part-unit (22) and opening sensor part- unit (23), and the geo positioning part-unit (21) is supplied with a GPS module. The characteristic feature of the invention is that the security holder (1) is coupled with a monitoring part-unit (2) that may be placed in its vicinity but moved independently of it, where the portable monitoring part-unit (2) is connected to the information forwarding unit (30) directly or through a mediating unit (90) via a data traffic channel (31) with a wireless connection, furthermore one of the first locking part-unit (51) or the second locking part- unit (52) of the lock structure (50) has several latches (53) supplied with a hooking body (53a), while the other is supplied with one or more latch openings (54) conforming to the shape and position of the hooking body (53a) of the latch (54), furthermore either the first locking part-unit (51) or the second locking part-unit (52) is connected to a drive structure (55), and the drive structure (55) is connected to the control unit (40).

Description

Portable security holder

The subject of the invention relates to a portable security holder that has a housing enclosing a storage space and at least one opening, a cover body that may be stably fixed to the housing and that seals the opening, and an energy source, sensor unit, information forwarding unit and control unit connected to these located in the housing and/or the cover body, furthermore, there is a lock structure inserted between the housing and the cover body, where the lock structure has a first locking part-unit connected to the housing and a second locking part-unit connected to the cover body, the sensor unit has a geo positioning part-unit, a motion sensor part-unit and opening sensor part-unit, and the geo positioning part-unit is supplied with a GPS module.

Many solutions have been elaborated to date for protecting the personal items and valuables that people use during their daily activities, including personal documents, means of payment, bankcards and portable information and telecommunication devices. Solutions are known of that may be used in situations when the given person, for reasons of rationality or practicality, wishes to keep such personal items close at hand but is forced to leave them unattended for shorter or longer periods of time, for example, on the beach while on holiday, while on a playground or while participating in an event that extends over a large area.

Such solutions include patent specification registration number US 5.199.361, the essence of which is a robust, rigid walled box, a device may be placed inside the internal space of the box that secures the box to the ground, and the top of the box is supplied with a lock structure that may be opened with a key. The disadvantage of this solution is that due to its dimensions and its securing it cannot be used as a portable device so that the user would wish to use it for protecting smaller personal items with an expressly portable nature, and it cannot be used at locations with a hard support surface, such as in stone- covered halls, open paved areas. The constructions presented in disclosure document number WO 00/58588 and in publication document number US 2006/0101877 have smaller dimensions. The former presents a lockable box that may be fixed to a column, such as to the pole of a beach umbrella, while the latter presents a lockable box that may be fitted to the side of a sunbed, where the fixing elements are arranged inside the box.

The deficiency of these constructions is that although the dimensions of the devices are smaller, they still only offer a fixed-point storage possibility for the user, therefore they may only be used for storing valuables at a given location.

A further disadvantage of these constructions is that the key that opens the lock structure of the box, especially in the case of a solution fixed to a sunbed, may be copied, therefore it may also be in the possession of others apart from the current user, therefore the requirement of secure protection cannot be ensured.

Utility model specification registration number HU U 3802 also relates to a security storage unit that may be anchored to a specific location, but as a result of its structure, it may also viewed as being portable.

The deficiency of the solution, however, is that its size is larger than would be desirable, therefore the given solution cannot be located in all environments or used without disturbing the environment.

A further disadvantage is that as a result of its structure and operation features, its use without anchoring does not provide sufficient security for the protection of personal valuables.

Another disadvantage is that the opening of the storage unit has a covering element that is fixed to the housing, therefore the method of connecting the covering element and the protective housing does not make it possible to position the covering element independently of the protective housing, which limits the area of use of the storage unit.

A general deficiency of the known such security storage devices serving for protecting personal items is that due to their dimensions or necessary anchoring they do not provide the user with the possibility of using it at any desired location without anchoring, or with the possibility of immediately detecting attempts to open it or steal it from a greater distance, or to continuously track the given storage device and determine its position with great precision.

Another feature that may be viewed as a general deficiency is that the opening of such easily portable and so lower weight security storage units - due to the simple and common hinged connection between the cover and the housing - takes place by simply tilting the cover, which does from the point of view of unauthorised access does not provide sufficient protection, and so damages the secure nature of the storage unit.

The objective with the solution according to the invention was to overcome the deficiencies of the known portable security storage units and to create a version that due to its small size and weight, as well as due to its shape, may be placed anywhere, that does not require secure anchoring to the environment, and due to the method of the connection between the cover body sealing the storage space and the housing it is significantly more difficult to break open the cover body quickly and in the usual way.

The recognition that led to the solution according to the invention was that if the cover body sealing the storage space of the holder is connected to the housing in an unusual way by placing a uniquely designed lock structure between the cover body and the housing containing latches connecting to each other in a novel way at several different points, and along with this an electronic unit is built into the housing suitable for precisely determining the position of the holder, which is connected to a portable monitoring device independent of the housing that serves to display this precise position with the help od a wireless connection, then it becomes possible to leave the given holder unguarded without substantial anchoring, because breaking open the cover body is a lengthy and time- consuming process, and the movement of the holder in the case of it being stolen and the movement of the perpetrator may be tracked with great precision, and due to the use of the portable monitoring device as a result of the signals essentially provided from nearby it may be found quickly, as a consequence of which the breaking open of the cover body by the perpetrator and the theft of the valuables placed in the storage space may be prevented due to the short amount of time available between when the holder is acquired and when it is found again and so the task is solved.

In accordance with the set objective the portable security holder according to the invention - which has a housing enclosing a storage space and at least one opening, a cover body that may be stably fixed to the housing and that seals the opening, and an energy source, sensor unit, information forwarding unit and control unit connected to these located in the housing and/or the cover body, furthermore, there is a lock structure inserted between the housing and the cover body, where the lock structure has a first locking part- unit connected to the housing and a second locking part-unit connected to the cover body, the sensor unit has a geo positioning part-unit, a motion sensor part-unit and opening sensor part-unit, and the geo positioning part-unit is supplied with a GPS module - is set up in such a way that the security holder is coupled with a monitoring part-unit that may be placed in its vicinity but moved independently of it, where the portable monitoring part- unit is connected to the information forwarding unit directly or through a mediating unit via a data traffic channel with a wireless connection, furthermore one of the first locking part-unit or the second locking part-unit of the lock structure has one or more latches supplied with a hooking body, while the other is supplied with one or more latch openings conforming to the shape and position of the hooking body of the latch, furthermore either the first locking part-unit or the second locking part-unit is connected to a drive structure, and the drive structure is connected to the control unit.

A further feature of the security holder according to the invention may be that the mediating unit has a remote access monitoring centre, with the help of the information forwarding unit the control unit is connected to the remote access monitoring centre via the data traffic channel, which connection ensures at least periodical data transmission, while the mediating unit's remote access monitoring centre is connected to the portable monitoring part-unit with the help of a command channel which also ensures at least periodical data transmission. In the case of another version of the security holder the sensor unit, the information forwarding unit, the drive unit and the control unit connected to these, and, in a given case the energy source, are arranged in a cavity of the cover body.

In the case of another different version of the invention the geo positioning part-unit and/or the information forwarding unit is supplied with a UWB module, and UWB transceiver units are coupled with the UWB module that may be installed in the area of movement of the security holder but physically separate from the UWB module. In a given case the geo positioning part-unit and/or the information forwarding unit are supplemented with a GSM module.

From the point of view of the security holder it may be preferable if a priming device is assigned to the control unit, which is removable from and independent of the housing, but which influences the operation of the control unit. In a given case the portable monitoring part-unit is coupled to the priming device.

In the case of another different embodiment of the invention the security holder and/or the portable monitoring device and/or the priming device are supplied with an alarm unit, where the alarm unit has a sound signalling body and/or light signalling body and/or vibration generating body.

In the case of a further embodiment of the security holder an orientation fitting is inserted between the cover body and the housing, and the cover body is positioned centrally on the opening of the housing with the help of the orientation fitting. The orientation fitting has a first centralising body with a conical envelope surface fixed into the opening of the housing and a second centralising body aligned with and cooperating with the conical envelope surface of the first centralising body with a conical shell surface fixed into the cover body, and when the housing and the cover body are in their closed position the conical envelope surface of the first centralising body and the conical shell surface of the second centralising body are in a position in which they at least partially touch each other.

The security holder according to the invention has numerous advantageous characteristics. The most important of these is that due to the unusual housing-cover body connection and the novel lock structure, and the unique tracking capability not only are theft attempts signalled, but the precise location of the security holder can also be continuously detected, which creates the possibility of finding it so quickly that in the short time available the perpetrator does not have the opportunity to break open the security holder. Therefore the reliability of the security holder according to the invention is greater than that of the known versions.

It must be seen as an advantage that due to the novel connection between the housing and the cover body the sealing of the security holder is more effective, and it is more difficult to break open, as forcing in the usual way is not sufficient to separate the cover body from the opening of the housing.

Another advantage of the unique construction according to the invention is that it makes it possible to use a keyless, electronically controlled locking mechanism where the actual locking make, take place at several different points, even with the use of latches distributed in space, which does not only make it difficult to force, but also substantially excludes an attack at the hinge, as in the connection between the housing and the cover body there is no hinge connection between the housing and the cover body.

It is also preferable that due to the unusual hinge-free construction permitting the possibility of the entire cover body being removed a much more aesthetic shape may be created, which, due to the security holder's small space requirement, means it may even be placed in more exclusive environments and may even be used as a handbag.

It is also an important advantage that the possibility of separating the cover body and the housing and keeping them separate from each other creates the possibility for the provision of services where the security holder according to the invention may be rented for a period of time, e.g. at swimming complexes, open-air music festivals or at other places where the demand for the secure protection of personal valuables not at a fixed point occurs for a short period of time, and when the given person does not wish to own the device, only rent it. As at such a time this may be implemented simply with the security holder according to the invention, i.e. only the cover body forming a significant element of the security holder, but taking up less space, is stored at the renting location and only this element is given to the renter during administration of the transaction and the housing is stored and handed over to the renter at a location independent of the location used for the administration of the transaction, which, in a given case is small. From a logistics point of view this represents a great advantage in the interest of widening the area of application of the security holder according to the invention.

Another advantage originating from the ability to separate the housing and the cover body is that the small cover body - when it is not being used, separate from the housing - may be stored in a locked place inaccessible to unauthorised persons until it is used next, which further increases the reliable protecting ability of the security holder according to the invention.

Yet another advantage is that the security holder may be produced using simple and known production technology and with the use of common electronic elements. It essentially does not require maintenance apart from the provision of a source of energy ready for operation. The tracking activity may be realised using solutions that are known of in themselves. Therefore, over all, the production and maintenance of the security holder according to the invention, as well as the provision of the related service can be realised at a favourable level of costs.

Also, with the use of the unique monitoring unit in an unusual application the precise geo positioning of the security holder may also be performed even in such circumstances when there are numerous security holders with identical shape and function moving around as compared to each other in a small area, although the security holder itself does not emit visible or audible alarm signals.

The security holder according to the invention will be explained in detail by way of embodiments on the basis of figures. Wherein

Figure 1 illustrates schematic view of a possible embodiment of the security holder according to the invention in longitudinal cross-section. Figure 1 illustrates a security holder 1, which consists of a solid of rotation shaped housing 10 and an also solid of rotation shaped cover body 13 that seals the opening 12 of the housing 10. The internal surface 10b of the housing 10 encloses the storage space 11, into which the user may place his/her personal valuables, such a telephone, documents, bank cards, cash, etc., through the opening 12 of the housing 10.

The cover body 13 also has a cavity 13a, which accommodates the control unit 40, the information forwarding unit 30 connected to it, the sensor unit 20 and the energy source 3 serving for the operation of these structural elements and connected to them in a preferable arrangement. The alarm unit 80 may also be located in the cavity 13a of the cover body 13, which contains the sound alarm body 81 and the light alarm body 82. The sensing unit 20 may also contain a movement detecting part-unit 22, an opening detecting part-unit 23 and a geo positioning part-unit 21 which contains a GPS module 21a, a GSM module 21b and a UWB module 21c.

It is also visible in figure 1 that the lock structure 50 and the orientation fitting 14 are inserted between the opening 12 of the housing 10 of the security holder 1 and the cavity 13a of the cover body 13.. The orientation fitting 14 comprises the first centralising body 14a and the second centralising body 14c. In the case of this embodiment the first centralising body 14a has a conical envelope surface 14b that is fixed to the housing 10 in the vicinity of the opening 12 of the housing 10, while the second centralising body 14c has a conical shell surface 14d with a shape and size complying with the shape and size of the conical envelope surface 14b and which cooperates with it. The second centralising body 1 c is connected to the cover body 13, naturally at the part of the cavity 13a of the cover body 13 near to the opening 12 of the housing 10.

The lock structure 50, which otherwise operates in cooperation with the orientation fitting 14, has a first locking part-unit 51 and a second locking part-unit 52. In the case of this embodiment the first locking part-unit 51 is fixed to the housing 10 in the vicinity of the storage space 11 of the housing 10. The second locking part-unit 52 is connected to the cover body 13. Preferably the drive structure 55 operating the second locking part-unit 52 is also fixed in the cavity 13a of the cover body 13 and is connected to the energy source 3. Here the first locking part-unit 51 comprises the set of latch openings 54, which, are arranged in a given position, on the surface of the first locking part-unit 51 formed as an annular plate encompassing the opening 12 of the housing 10.

The second locking part-unit 52 comprises latches 53 arranged aligned with the latch openings 54, which latches 53 protrude from the surface facing the opening 12 of the housing 10 in the direction of the latch openings 54 of the first locking part-unit 51. The latches 53 are supplied with hooking bodies 53a in the interest of maintaining the cover body 13 in the appropriate position as compared to the housing 10 when the lock structure 50 is in locked status.

It can also be seen in figure 1 that the security holder 1 may be assigned a priming device 70, as well as a mediating unit 90 with the help of the data traffic channel 31 of the information forwarding unit 30.

The priming device 70 is a small, e.g. watch-like device that the user of the security holder 1 can attach to his/her own wrist with a connection fitting 71, e.g. buckle strap, and keep it with him/herself without any difficulty whatsoever.

The priming device 70, on the first part, is suitable for sending signals electronically to the control unit 40 of the security holder 1, in a way similar to RFID labels, as a result of which signal the lock structure 50 is set to locked status, and the sensing unit 20 is switched to active status. On the second part, the control unit 40 signals any sabotage to the priming device 70 via the information forwarding unit 30, which is brought to the user's attention by the alarm unit 80 located in the priming device 70 with the help of the sound signalling body 81 and the light signalling body 82.

On the third part, the priming device 70 may be supplied with a direction-finder and signalling application that shows the direction and distance from the priming device 70 where the security holder 1 assigned to the given priming device 70 may be found, thereby making it simpler to find the possibly stolen security holder 1. The mediating unit 90, as opposed to the priming device 70, is preferably a remote access monitoring centre 91 that has a high performance computer technology device, and is able to precisely track the positions of numerous security holders 1 located or moving in a smaller or larger area, tag them and continuously monitor their status. This remote access monitoring centre 91 may be in connection with one or more independent monitoring part- units 2 that are independent of the user of the security holder 1.

In this case the monitoring part-unit 2 is a much more complex device, such as a smartphone or tablet, which may contain the location data of several security holders 1 and it also signals if any of these suffer and "attack".

This monitoring part-unit 2, in connection with the remote access monitoring centre 91 via the command channel 92, is assigned to the security officer of a security service, who, on a beach for example, performs continuous security patrols and monitors the position and status of the security holders 1 rented there.

The use of UWB transceiver units is preferable in cases when a large number of security holders 1 are located in a small area, which are in connection with the UWB module 21c of the geo positioning part-unit 21 of the sensing unit 20 located in the cavity 13a of the cover body 13 of the security holder 1 and make it possible to determine the precise location of the given security holder 1, and so their high-precision tagging on the monitoring part-unit 2.

This solution is also conceivable in the case when a relocatable solution is required for a given event and the security holders 1 provided for use there only have to be monitored in a small area, but their positions need to be determined with great precision. In such cases it is preferable to install several UWB transceivers in the given area and to use the UWB module 21c of the geo positioning part-unit 21 of the sensing unit 20 for determining position.

During the use of the security holder 1 according to the invention after removing the cover body 13 of the security holder 1 with a charged-up energy source 3 from the opening housing 10, then synchronise the priming device 70 and the control unit 40. If there is an RPID in the priming device 70 and the control unit 40 is able to read it and store the read identifier, then any priming device 70 may be coupled with any cover body 13 irrespective of which housing's 10 opening 12 the given cover body 13 will lock. When the coupling of the priming device 70 and the control unit 40 located in the cover body 13 has taken place, the cover body 13 maybe placed on the opening 12 of the housing 10.

As the cover body 13 approaches the opening 12 of the housing 10 the conical shell surface 14d of the second centralising body 14c fixed to the cover body 13 reaches the conical envelope surface 14b of the first centralising body 14a fixed to the housing 10 near to the opening 12 of the housing 10. As the conical shell surface 14d meets the conical envelope surface 14b, the conical envelope surface 14b guides the conical shell surface 14d into the desired position, and in this way the first centralising body 14a of the orientation fitting 14 and its conical envelope surface 14b are connected in such a way that in the meantime the latches 53 of the second locking part-unit 52 of the lock structure 50 find their way into the latch openings 54 of the first locking part-unit 51 of the lock structure 50, and the hooking bodies 53a of the latches 53 grip into the latch openings 54. In this way the lock structure 50 maintains the housing and the cover body 13 in locked state.

This occurs in the case that if the latches 53 are forced into a basic state by an energy- storing member, e.g. spring, so that the hooking bodies 53a of the latches 53 may move from their locking position while passing through the latch opening 54, and by being moved in this way they are able of "avoiding" the latch opening 54 and after passing through it return to the locking position.

If the priming device 70 approaches the control unit 40 located in the security holder 1, then the control unit 40 detects the signal of the priming device 70, and the control unit 40 assess this as an instruction to switch on the protection system of the security holder 1, which sets off the following process.

The control unit 40 maintains the drive structure 55 of the lock structure 50 in locked position, and in this way the latches 53 of the second locking part-unit 52 are unable to move in the latch openings 54 of the first locking part-unit 51 for the hooking bodies 53a of the latches 53 to get into the latch openings 54. With this the locked state of the lock structure 50 is maintained and the cover body 13 and the housing 11 brought together with the help of the orientation fitting 14 on a conical path protect the storage space 11, i.e. the cover body 13 cannot be removed from the opening 12 of the housing 10 without damage.

Apart from this the control unit 40 switches on the motion sensor part-unit 22, the opening sensor part-unit 23 and the geo positioning part-unit 21. The GPS module 21a, the GSM module 21b and the UWB module 21c of the geo positioning part-unit 21 start operating and endeavour to determine their position as compared to satellites, transmission towers and, in a given case, UWB transceiver units 60. Following this they determine their own coordinates using a known, e.g. triangulation procedure and forward this data to the control unit 40. In a given case, on the basis of the information received the control unit 40 determines the position of the given security holder 1 with great precision, which data may be transmitted using the information forwarding unit 30 through its data traffic channel 31 on the one part to the priming device 70 and on the other part to the remote access monitoring centre 91 of the mediating unit 90.

The remote access monitoring centre 91 sends the position information received through the data traffic channel 31 via the command channel 92 to the monitoring part-unit 2, which it displays on its own display 2a. Naturally, the security holders 1 in use operate in an identical way, therefore the remotes access monitoring centre 91 sends the location and state data of several security holders 1 through the command channel 92 to the display 2a of the monitoring part-unit 2, which the patrolling security officer may also inspect.

If a given security holder 1 is attacked, i.e. someone attempts to remove the cover body 13 from the housing 10 or the entire security holder 1 is moved from its resting position, or even taken away, then either the opening detecting part-unit 23 of the sensing unit 20 or the movement detecting part-unit sends a signal to the control unit 40. The control unit 40 processes the received signal, interprets it, and via the data traffic channel 31 the information forwarding unit 30 sends it to the alarm unit 80 of the priming device 70, the sound signalling body 81 and light signalling body 82 of which signals to the user that an undesirable event has occurred to the security holder 1. Due to the alarm signal arriving at the priming device 70, the user may rush back to the security holder 1 to determine what has happened to the security holder 1. If the user cannot find the security holder 1 at the position it was left, then the user can make use of the direction-finder 72 of the priming device 70 in order to find the security holder 1.

Because in the case of an alarm the control unit 40 continuously requests data from the geo positioning part-unit 21 and the position calculated from this data, continuously, is forwarded by the information forwarding unit 30 via the data traffic channel 31 to the direction-finder 72 of the priming device 70. Then the direction-finder 72 signals to the user the distance to the security holder 1 and the direction in which it may be found.

Naturally, the control unit 40 also sends the alarm signal through the data traffic channel 31 of the information forwarding unit 30 to the remote access monitoring centre 91 of the mediating unit 90, as well as the location coordinates and motion of the given security holder 1. In this way the remote access monitoring centre 91 is able to track on its own display the movement and position of the endangered security holder 1 , and sends this data via the command channel 92 to the security patrol officer who is authorised to take action and is in possession of a monitoring part-unit 2, who, on the basis of the information and instructions received may start to search for the security holder and stop any sabotage.

Naturally, if the cavity 13a of the cover body 13 of the security holder 1 contains the alarm unit 80. then the control unit 40 also activates the sound signalling body 81 and light signalling body 82 of this alarm unit 80 and with this calls attention to that a person is in possession of and taking away the security holder 1 who is unauthorised. In this way the repossession of the stolen security holder 1 starts in several independent ways, and is obviously successfully completed.

If the user returns to his/her own security holder 1 and approaches the control unit 40 with the priming device he/she is wearing, then it detects that the associated priming device 70 is in the vicinity and accordingly switches off the alarm unit 80, the motion sensor part- unit 22 and the opening sensor part-unit 23 of the sensing unit 20, and instructs the drive structure 55 of the lock structure 50 to set the latches 53 of the second locking part-unit 52 of the lock structure 50 to open position. During this the control unit 40 instructs the drive structure 55 of the lock structure 50 to move the latches 53 of the second locking part-unit 52 to open position in the latch openings 54 of the first locking part-unit 51. Accordingly the drive structure 55 moves the latches 53 in such a way so that the hooking bodies 53a of the latches 53 get into the latch openings 54 and become disconnected from the first locking part-unit 51. With this the lock structure 50 opens and with the help of the orientation fitting 14 on the cover body 13 guided onto the housing 100 on the conical path may be easily lifted off the opening 12 of the housing 10, and so the personal valuables placed in the storage space 11 once again become accessible.

After the rented security holder 1 is returned, the rental company terminates the coupling between the given priming device 70 and the given cover body 13, in the appropriate way, in this way when next used the given priming device 70 may be coupled with a completely different cover body 13.

It is important to note that while the geo positioning part-unit 21 is in operation, among the GPS module 21a, the GSM module 21b and the UWB module 21c, those are active in the determination of the location of the given security holder 1 that are important from the point of view of precise positioning. For example, in the case of an event held in a very shielded area, such as in a building, the GPS module 21a is unable to provide appropriate location data, and in a given case the operation of the GSM module 21b is not always reliable, but the UWB module 21c in connection with the UWB transceiver 60 is sure to be able to provide precise coordinates to the control unit 40 and via this to the remote access monitoring centre 91 of the mediating unit 90. While in open areas where there are no UWB transceivers 60 installed, the control unit 40 may process the data from the GPS module 21a and the GSM module 21b to obtain location information of the desired precision.

It must also be mentioned that the lock structure 50 may also be designed so that after the cover body 13 has been placed on the opening 12 of the housing 10, the hooking bodies 53a of the latches 53 are not place immediately into locked status. In this case the setting of the latches 53 of the lock structure 50 into locked status is performed by the drive structure 55 when the user uses his/her own priming device 70 to give a signal to the control unit 40 to lock the security holder 1 and set it to protection status.

The security holder according to the invention may be put to good use in cases when someone wishes to keep their personal valuables safe in the immediate vicinity so that they are placed in a non-fixed position, e.g. bag-like "mobile safe" not within arm's length but within a distance suitable for monitoring and initiating interventions, especially at beaches, festivals and other events.

List of references security holder monitoring part-unit 2a display energy source housing 10a external surface

10b internal surface

11 storage space

12 opening

13 cover body

13a cavity

14 orientation fitting

14a first centralising body 14b conical envelope surface 14c second centralising body 14d conical shell surface 0 sensing unit 21 geo positioning part-unit

21a GPS module

21b GSM module

21c UWB module

22 movement detecting part-unit

23 opening detecting part-unit 0 information forwarding unit 31 data traffic channel 0 control unit 0 lock structure 51 first locking part-unit

52 second locking part-unit

53 latch

53a hooking body

54 latch opening

55 drive structure 0 UWB transceiver unit 0 priming device 71 connection fitting

72 direction-finder 0 alarm unit 81 sound signalling body

82 light signalling body 90 mediating unit 91 remote access monitoring centre

92 command channel

Claims

O 2017/085523 - 18 - CLAIMS

1. Portable security holder which has a housing (10) enclosing a storage space (1 1) and at least one opening (12), a cover body (13) that may be stably fixed to the housing (10) and that seals the opening (12), and an energy source (3), sensor unit (20), information forwarding unit (30) and control unit (40) connected to these located in the housing (10) and/or the cover body (13), furthermore, there is a lock structure (50) inserted between the housing (10) and the cover body (13), where the lock structure (50) has a first locking part- unit (51) connected to the housing (10) and a second locking part-unit (52) connected to the cover body (13), the sensor unit (20) has a geo positioning part-unit (21), a motion sensor part-unit (22) and opening sensor part-unit (23), and the geo positioning part-unit (21) is supplied with a GPS module, characterised by that the security holder (1) is coupled with a monitoring part-unit (2) that may be placed in its vicinity but moved independently of it, where the portable monitoring part-unit (2) is connected to the information forwarding unit (30) directly or through a mediating unit (90) via a data traffic channel (31) with a wireless connection, furthermore one of the first locking part-unit (51) or the second locking part- unit (52) of the lock structure (50) has several latches (53) supplied with a hooking body (53a), while the other is supplied with one or more latch openings (54) conforming to the shape and position of the hooking body (53 a) of the latch (54), furthermore either the first locking part-unit (51) or the second locking part-unit (52) is connected to a drive structure (55), and the drive structure (55) is connected to the control unit (40).

2. Security holder according to claim 1, characterised by that the mediating unit (90) has a remote access monitoring centre (91), with the help of the information forwarding unit (30) the control unit (40) is connected to the remote access monitoring centre (91) via the data traffic channel (31), which connection ensures at least periodical data transmission, while the mediating unit's (90) remote access monitoring centre (91) is connected to the portable monitoring part-unit (2) with the help of a command channel (92) which also ensures at least periodical data transmission.

3. Security holder according to claim 1 or 2, characterised by that the sensor unit (20), the information forwarding unit (30), the drive unit (55) and the control unit (40) connected to these, and, in a given case the energy source (3), are arranged in a cavity (13 a) of the cover body (13).

4. Security holder according to any of claims 1-3, characterised by that the geo positioning part-unit (21) and/or the information forwarding unit (30) is supplied with a UWB module (21c), and UWB transceiver units (60) are coupled with the UWB module (21c) that may be installed in the area of movement of the security holder (1) but physically separate from the UWB module (21c).

5. Security holder according to any of claims 1-4, characterised by that the geo positioning part-unit (21) and/or the information forwarding unit (30) are supplemented with a GSM module (21b).

6. Security holder according to any of claims 1-5, characterised by that a priming device (70) is assigned to the control unit (40), which is removable from and independent of the housing (10), but which influences the operation of the control unit (40).

7. Security holder according to claim 6, characterised by that the portable monitoring part-unit (2) is coupled to the priming device (70).

8. Security holder according to any of claims 1-7, characterised by that the security holder (1) and/or the portable monitoring device (2) and/or the priming device (70) are supplied with an alarm unit (80), where the alarm unit (80) has a sound signalling body (81) and/or light signalling body (82) and/or vibration generating body (83).

9. Security holder according to any of claims 1-8, characterised by that an orientation fitting (14) is inserted between the cover body (13) and the housing (10), and the cover body (13) is positioned centrally on the opening (12) of the housing (10) with the help of the orientation fitting (14).

10. Security holder according to claim 9, characterised by that the orientation fitting (14) has a first centralising body (14a) with a conical envelope surface fixed into the opening (12) of the housing (10) and a second centralising body (14c) aligned with and cooperating With the conical envelope surface (14b) of the first centralising body (14a) with a conical shell surface (14d) fixed into the cover body (13), and when the housing (10) and the cover body (13) are in their closed position the conical envelope surface (14b) of the first centralising body (14a) and the conical shell surface (14d) of the second centralising body (14c) are in a position in which they at least partially touch each other.