AU6625286A - Fracturable-token system - Google Patents

Description

FRACTURABLE-TOKEN SYSTEM

TECHNICAL FIELD This invention relates to a fracturable key card or token which operates in a manner similar to a token for the control or activation of a device.

BACKGROUND ART The field of application of this facturable key card or token is wide. The types of possible uses include operating coin or token machines such as turnstiles, poker machines, dispensing machines, and pay by time services such as electricity (in particular solar generated). These types of devices which have been operated by the use of coins, tokens, encoded cards or conventional keys usually suffer some disadvantage. Where the operation is controlled by insertion of a coin or token, and that coin or token is then held within the machine there are problems with the security of the machine and in some cases the cost of collecting the coins and tokens. In machines such as vending machines or pre payment meters which are left in relatively insecure areas they are easily vandalized and the still usable coins or tokens removed. Further, there is significant cost in employing staff to regularly and frequently collect the coins or tokens. Staff employed for this task must be honest as there is the temptation to "pocket" some of the takings especially if the machines are prone to malfunction or the vended product is not well accounted. An especially significant problem wit coin operated devices is that the supplier receives in hand the payment a significant period of time after supplying the goods.

Encoded card operated devices can suffer similar disadvantages to the coin or token devices where the encoded card is captured by the device in order to prevent further use. In the cases where the card may be used a multiple number of times it is often difficult to account for how ofte such device has been used. A further problem with encoded cards is that they are often relatively expensive to produce. A popular form of encoded cards includes a magnetic strip and sophisticated encoding and decoding equipment. The decoding equipment obviously must be present in each machine to be operated by the encoded card, such equipment is very expensive.

Conventional key operated devices have the disadvantage that unlimited use of the key is unavoidable and accounting of the use of the controlled device difficult.

Therefore, it is an object of the present invention to provide a fracturable key which will ameliorate disadvantages of the prior art.

Throughout this specification the term "key" is used in the broad sense and not necessarily limited to conventionally shaped keys.

DISCLOSURE OF INVENTION There is disclosed herein a key activator control unit, said control unit having a hollow body, an insertion slot in said body and into which a key is inserted to activate said control unit, key destruction means within the body and positioned to engage at least a portion of the key when projecting into said slot, detection means activated by said key to thereby activate said control unit, and wherein said key destruction means deforms or destroys said portion thereby preventing or limiting reuse of the key to again activate said control unit.

The fractured portion may form a mechanical bridge, allowing activation of the device. Further validation is possible by electrical trip or sensors. Such sensors reacting to composition or dimensions of fractured portion. Such detection may provide a signal in response to each fractured portion allowing activation.

Preferably the broken off portion is destroyed within the control unit, though in some applications it may be desirable to collect, within the control unit, such broken off portions to allow for accounting of its use. Where broken off portion is destroyed, usage accounting is achieved by mechanical trip or electronic means. The broken off portion on its own is insufficient to operate the control unit. Further, a key will be useless on its own, or in combination with a broken off portion.

In some instances it will be preferred that each key includes a number of fracturable portions allowing controlled multiple use thereof.

In a particular preferred embodiment the fracturable ke system will be used to control electricity supply on a pay by use basis. In this case single or multiple use keys will be sold at some central location or distributed through existing commercial outlets such as retail shops. When electricity is required one of the keys will be used and the broken off portion activates the control unit. The control unit will then allow the corresponding amount of power or time access to be used before shutting off the supply to the customer. This system replaces coin operated systems which are vulnerable to theft and require frequent collection of coins, it also replaces pay by account systems which have proved to be ineffective in areas such as many Pacific Island communities. A further use is in the control of access to security buildings. It is often necessary that maintenance personnel must gain access to an area on a one off basis. This type of controlled access is easily provided by this fracturable key system. Such a key can be given to maintenance personnel, fo example, without the need to re-collect the key or otherwise make sure that non-authorised use does not occur.

An important advantage of the system is the accounting ability. Although the system negates the need for regular collection of coins, tokens or similar valuable items the broken off portions can be stored in the machine and collecte on, for example, a six monthly basis or simple trip counter may record usage. It is then easy to account for the use of the particular machine over that six month period.

In a preferred embodiment of the invention the key will be similar in appearance to a conventional key blank with a unique combination of grooves running along the key extension. Proximate the end of the extension is a perforate or otherwise weakened line running across the extension allowing the end to be relatively easily broken off from the remainder of the key. Where the key is to be for multiple us a number of these perforated or weakened lines will occur equally spaced longitudinally along the key extension.

The control unit accepting the key will have a hole for insertion of the key extension and being of a cross-sectional shape -closely corresponding to the cross-sectional shape of the key extension. When a key is placed within the hole and fully inserted the fracturable portion will be proximate a breaking means. The breaking means is actuated by turning of the key, and hence the portion of the control unit which includes the hole. Once they key is turned and the fracturable portion is broken off by the breaking means it will fall through the control unit and pass an optical sensor initiating a pass an optical sensor initiating a control signal to the machine which is being controlled by that control unit. When the fracturable portion has passed the optical or other sensor it continues falling to a large storage bin within the machine. Once the fracturable portion is broken off by the breaking means, it may form a mechanical bridge to allow completion of an operation, such fracturable portion being disfugured in the process.

The body part of a key, once all of the fracturable ends have been used, can form the basis of an incentive system or similar. For example, when 20 such key bodies are collected and returned to the issuing authority a free usable key or other reward can be issued in return.

This invention in its preferred form, has specific importance as a means allowing provision of electricity (solar-diesel-mains generated) in impoverished areas, remote areas, of underdeveloped countries. Allowing pre payment of a day to^' day or week to week basis requiring no security risks and no collection. It may also serve in the same regions to allow supply or access to any power source or commodity.

BRIEF DESCRIPTION OF DRAWING A preferred form of the present invention will now be described by way of example with reference to the accompanying drawings, wherein:

Figure 1 is a schematic perspective view of a key activated control unit; Figure 2 is a schematic front elevation of the unit of Figure 1;

Figure 3 is a schematic rear elevation of the unit of Figure 1;

Figure 4 is a schematic sectioned side elevation of the control unit as depicted in Figure 2 sectioned along the line AA; and

Figure 5 is a schematic perspective view of a key employed to operate the control unit of Figure 1. MODES FOR CARRYING OUT THE INVENTION

In the accompanying drawings there is schematically depicted a control unit 10 operated by means of a key 11 (Figure 5). The control unit 10 consists of a body 12 with a front panel 13 provided with a key insertion slot 14. The slot 14' being shaped to co-operate with the key 11 so that the leading portion of the key 11 may be located within the body 12.

Pivotally mounted within the body 12 is a shaft 15 which is received within the hollow 16 formed in the key shank 17. The hollow 16 terminates at its inner end with flat surfaces 18 which engage surfaces 19 on the shaft 15, so that upon the key 11 being turned, the shaft 15 turns with it. The body is also provided with an internal wall 20 which has projections 21 which engage grooves 22 of the key 11 to thereby act as a security device in only permitting the use of keys having a particular slot profile. In this particular embodiment, the key is inserted so that the key blade 23 is horizontal. Once inserted the key is rotated anticlockwise until the blade 23 engages a notch 24 in the pawl 25. The pawl 25 is pivotally mounted on a pin 26 and is angularly deflectable from the position, as shown in Figure 1, to a position wherein it activates the microswitch 27 via the arm 28. With the blade 23 engaged within the notch 24, the key cannot be rotated in the opposite direction enabling its withdrawal. The inner end of the shaft 15 is provided with a radially extending flange 29 which extends only partly angularly about the shaft 15.

Also rotatably supported by the body 12 is a shaft 30 provided with a handle 31 to be used by the operator. Fixed to the shaft 30 are blades 32 which are aligned with slots 33 formed in the wall 20. Also projecting from the shaft 30 are further blades 34 which are located in a housing 35 having slots 36 aligned with the slots 33. The blades 32 and 34 are fixed to the shaft 30 so as to rotate therewith. The shaft 30 is engaged by a spring 37 which biases the shaft to the rest position as shown in Figure 1. If so desired one end of the shaft 30 can be provided with cams 38 which activate counters 39. Also mounted on the shaft 30 is a radially extending flange 40 which has a slot 41 positioned so that the flange 39 may pass angularly therethrough.

In operation of the above described control unit 10, the key 11 is inserted and rotated until the blade 23 is engaged in. the. notch 24. Accordingly the switch 27 is then activated. At this time, the flange 29 has also been rotated so as to free the flange 41. Thereafter the operator can rotate the shaft 30 by means of the handle 31 so that the blades 32 are moved to engage the blade 23. Sufficient force is then applied to the handle 31 to destroy the blade 32 thereby rendering the key unusable and allowing withdrawal of the remainder of the key. The blades 32 are moved angularly until they engage within the slots 36 to ensure destruction of the blade 23. The handle 31 is then rotated _tin the opposite direction and the blades 32 remove any remaining blade portions located within the slots 36. The remainder of the key may then be removed.

The switch 37 can then be connected to a timing mechanism or other device to be controlled by the unit 10.

The key 11 is also provided with a flange 42 which abuts the underside surfaces 43 of the housing 35 to prevent twisting of the key when the blade 23 is being destroyed.

It should be appreciated that the above described embodiment is merely one control unit which is activated by a key and destroys part of the key to limit or to prevent further use of the key. As a further alternative, the control unit 10 could be provided with an angled slot which engages a generally planar key, so that the end portion of the key is deformed and broken. The key could have transversely extending weakened portions to aid in fracturing the end portion of the key.

Claims (8)

1. A key activator control unit, said control unit having a hollow body, an insertion slot in said body and into which a key is inserted to activate said control unit, key

* destruction means within the body and positioned to engage at least a portion of the key when projecting into said slot, detection means activated by said key to thereby activate said control unit, and wherein said key destruction means deforms or destroys said portion thereby preventing or limiting reuse of the key to again activate said control unit.

2. The key activator control unit of claim 1, further including key positioning means adapted to engage the key and position the key with respect to said body, said positioning means defining an initial position for the key and an operative position wherein said key portion is located so as to be engaged by said key destruction means.

3. The key activator control unit of claim 2, wherein said key protection means is activated by said key when said key is in said operative position.

4. The key activator control unit of claim 1, wherein said key destruction means includes a key engaging member movable along a predetermined path intersecting with said key portion so as to destroy or deform said portion.

5. The key activator control unit of claim 4, further including operator manipulatable means connected to said key engaging member to cause movement thereof along said predetermined path.

6. The key activator control unit of claim 5, further including limit means to prevent movement of said key engaging member, and wherein said pivot means is movable to a position permitting movement of said key engaging member, by movement of said key.

7. A key activator control unit, substantially as hereinbefore described with reference to the accompanying drawings.

8. A key for use with the key activator control unit of claim 1, said key consisting of a shank terminating at one end with a key blade to be destroyed or deformed, and a flange extending from said shank to aid in retaining said key in position when said blade is being deformed or destroyed. - 9. A key for the key activator control unit of claim 7, said key being substantially as hereinbefore described with reference to the accompanying drawings.