Abstract:
A safety switch assembly includes a body constructed to be mounted in a support structure and generally enclose the operative structure of the safety switch. The safety switch assembly includes an actuator constructed to pass through one of the support structure or the base to operatively engage the operative structure of the safety switch to control the safety switches electrical orientation to communicate or terminate communication of electrical power to a device equipped with the safety switch.

Description:
CROSS REFERENCE TO RELATED APPLICATION  
       [0001]     This application claims priority under 35 U.S.C. §119 to United Kingdom Patent Application No. 0519929.4 filed Sep. 30, 2005, entitled “Safety Switch” and the entirety of which is incorporated herein by reference.  
       BACKGROUND OF THE INVENTION  
       [0002]     The present invention relates to safety switches, and to safety switch assemblies.  
         [0003]     A safety switch may be considered as an emergency electrical shut off switch, and either allows or prevents electricity from passing through it (i.e. it provides a closed circuit or an open circuit). If the safety switch is activated, such that it forms an open circuit, electricity will not pass to any device to which the safety switch is connected.  
         [0004]     Safety switches are often used in places where access to particular enclosures is to be restricted, such enclosures enclosing electrically operated machinery. For example, safety switches are often found in factories that use kinetic machinery powered by electricity. The safety switch may be used to prevent access to an enclosure containing the machinery when the machinery is in operation. Specifically, power will only be supplied to the machinery when the switch is closed, and this is conveniently achieved by the closure of a gate incorporated in the enclosure. When the gate is opened, the safety switch is activated, the circuit is broken, and the electrical power supply to the machinery is interrupted (i.e. the machinery cannot run when the gate is opened and the safety switch is thereby activated). Safety switches are well known in the art, and come in a variety of different forms.  
         [0005]     A safety switch will usually comprise a switch mechanism which is housed in a housing and attached to part of a structure forming the enclosure. A protruding actuator (i.e. a key) may be attached to a gate which is movable relative to the enclosure and the safety switch mechanism. When the gate is closed, the actuator engages with the switch mechanism to allow supply of electrical power to the machinery.  
         [0006]     While safety switches are intended to be beneficial to workers using and moving around dangerous machinery within a factory, it is not uncommon for the switches themselves to be tampered with. For example, it may be that workers wish to inspect dangerous machinery while it is in operation. In order to do this, they may take off the cover of the safety switch housing and tamper with its internal mechanisms such that the circuit is closed and electrical power supplied to the machinery even when the gate to the enclosure remains open. Alternatively, a worker may obtain a replacement key, or fabricate a makeshift one for him/herself to engage with the safety switch mechanism such that the machinery may be operable even when the gate remains open. Since the purpose of the safety switch is to prevent such access, and to maintain the safety of the workers, tampering with a safety switch or using a replacement key is not desirable.  
         [0007]     As stated above, the switch mechanism is housed in a housing and attached to the structure forming the enclosure. It is not uncommon for the switch mechanism to become damaged by repeated use, and in particular damaged by impact from objects such as equipment being carried into and out of the enclosure, or damaged by the gate itself.  
         [0008]     It is therefore desired to provide a safety switch to obviate or mitigate at least one of the above-mentioned disadvantages.  
       SUMMARY OF THE INVENTION  
       [0009]     According to a first aspect of the invention there is provided a safety switch assembly, comprising a safety switch and a support structure, the support structure being suitable for forming at least part of an enclosure, the safety switch being arranged to control the supply of electricity to electrically powered apparatus located within the enclosure, wherein the safety switch is located substantially within the support structure.  
         [0010]     According to a second aspect of the invention there is provided a safety switch assembly, comprising a safety switch and a support structure, the support structure being suitable for forming at least part of an access point to an enclosure, the safety switch being arranged to control the supply of electricity to electrically powered apparatus located within the enclosure, and wherein the safety switch is located substantially within the support structure.  
         [0011]     According to a third aspect of the invention there is provided a safety switch comprising a base plate and electrical contacts, the electrical contacts being mounted on the base plate and being movable between open and closed configurations using an actuator, wherein the base plate is configured so as to be mountable on a support structure such that the electrical contacts are located within the support structure.  
         [0012]     By incorporating the safety switch within a supporting structure, many of the above-mentioned disadvantages are obviated or mitigated. For example, by incorporating the safety switch within a supporting structure, it is made more difficult for the switch to be tampered with. In addition, the switch is better protected from impact damage.  
         [0013]     According to a fourth aspect of the present invention there is provided a safety switch comprising an actuator receiving portion arranged to receive an actuator of a specific shape. The specific shape is one which permits operation of the switch by the actuator, thereby serving as a first security measure. An additional security measure includes a detector for obtaining an electrical signal representing an identifier provided on the actuator, and a comparator for comparing the obtained identifier with one or more acceptable identifiers. The safety switch is configured to operate only when the first security measure and the additional security measure are satisfied.  
         [0014]     By incorporating an additional security measure into the safety switch, access to an enclosure can be more readily controlled. This will help to prevent unauthorised access by users having a correctly shaped key, but not having the necessary corresponding identifier. For example, this additional security measure may comprise a barcode scanner located within the safety switch, and a barcode located on the actuator. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0015]     Embodiments of the present invention will now be described, by way of example only, with reference to the accompanying drawings, in which:  
         [0016]      FIGS. 1A-1C  are schematic illustrations of a safety switch and actuator according to the invention;  
         [0017]      FIGS. 2A-2D  schematically illustrates the safety switch of  FIGS. 1A-1C  located within a supporting structure;  
         [0018]      FIG. 3  is a schematic illustration which shows the safety switch of  FIG. 2  together with an enclosure; and  
         [0019]      FIGS. 4A-4B  are schematic illustrations of a safety switch in accordance with a second embodiment of the invention. 
     
    
     DETAILED DESCRIPTION  
       [0020]      FIG. 1A  is a perspective view of a safety switch which embodies the invention. The safety switch comprises a base plate  1 , on which is mounted two pairs of contacts  2 A,  2 B. The base plate  1  is provided with an aperture  1 A allowing electrical connection to and from the contacts  2 A,  2 B. One side  2 A of each pair of contacts is fixed in position relative to the base plate  1 . The other side  2 B of each pair of contacts is movable relative to the base plate  1 , and is carried by an axially-movable rod  3 . The axially-movable rod  3  is biased by a spring (not shown) which holds the contacts  2 A,  2 B apart from one another, such that the safety switch serves to act as a break in a circuit. The safety switch may be electrically connected to electrically powered machinery such that no power can be supplied to the electrically powered machinery when the safety switch is activated.  
         [0021]     The axially-movable rod  3  is movable by a cam surface of a cam arrangement  4 . The shape of the cam surface is shown in  FIG. 1B . The cam surface is provided with an indentation  4   a , which is dimensioned such that when it is aligned with an end of the axially-moveable rod  3 , the axially moveable rod moves into the indentation under the bias of the spring. The cam surface is provided with a pair of notches  4   b , which are dimensioned to receive an actuator (only one notch is visible in  FIG. 1B ).  
         [0022]     The actuator  5  is shown in  FIG. 1C . The actuator  5  comprises two arms  5 A which are provided with fingers  5 B. The fingers  5 B are dimensioned to be received in the pair of notches  4 B provided in the cam surface. The actuator  5  further comprises an extended planar surface  5 C, to which the legs  5 A are attached. The planar surface  5 B serves as a handle for easy engagement and disengagement of the actuator  5  with the pair of notches  4 B provided in the cam surface. The planar surface  5 C also facilitates attachment of the actuator  5  to a door or gate.  
         [0023]     In use, when no actuator  5  is engaged with the cam arrangement  4 , the axially-movable rod  3  is pushed by the bias of the spring into the recess  4 A in the cam surface. The contacts  2 A,  2 B are thereby kept open. The safety switch acts as open circuit, and prevents supply of electrical power to any equipment to which it is attached.  
         [0024]     When the actuator  5  is engaged with the cam arrangement  4 , by insertion of the fingers  5 B into the pair of notches  4 B, it rotates the cam arrangement  4  in an anti-clockwise direction. This rotates the recess  4 A away from the axially-moveable rod  3 . The axially-moveable rod  3  is thereby pushed against the bias of the spring, thereby closing the contacts  2 A,  2 B., The safety switch acts as a closed circuit, and allows electrical power to be supplied to equipment to which it is attached.  
         [0025]     Upon removal of the actuator  5 , the cam arrangement rotates in a clockwise direction until the recess  4 A is aligned with the axially-moveable rod  3 . The axially-movable rod  3 , moves under the bias of the spring into the recess  4 A, thereby opening the electrical contacts  2 A,  2 B. The supply of electrical power to equipment to which the safety switch is attached is thereby interrupted.  
         [0026]     The fingers  5 B of the actuator  5  act as identifiers, in the sense that they must be correctly dimensioned in order to engage with the pair of notches  4 B of the cam arrangement and thereby actuate the cam. If the fingers  5 B of the actuator were not correctly dimensioned, then they would not engage the pair of notches  4 B and the cam arrangement would not be rotated by the actuator  5 . Thus, an actuator which does not have correctly dimensioned fingers  5 B cannot be used to rotate the actuator  5 .  
         [0027]      FIG. 2A  shows the safety switch of  FIG. 1A  mounted in a fence post, which may comprise part of an enclosure. The enclosure may contain electrically powered machinery, the supply of electrical power to the machinery being controlled by the safety switch. It will be appreciated that in practice the fence post  7  may not be transparent, and  FIG. 2A  merely represents the fence post  7  as being transparent to aid the understanding of the invention. A slot  6  is cut in the fence post  7  to allow the actuator (not shown in  FIG. 2 ) to engage with the pair of notches  4 B of the cam arrangement. An aperture is cut into a rear face of the fence post  7  to receive the safety switch. The safety switch is inserted into the aperture, and then fixed to the fence post  7  using bolts or other attachment means which pass through the base plate  1 .  
         [0028]      FIG. 2B  shows a reverse view of the fence post  7  of  FIG. 2A . Once again, the fence post  7  is shown as being transparent as an aid to understanding the invention.  FIG. 2C  shows the fence post  7  and slot  6 A as they would appear if the fence post  7  was not constructed of a transparent material.  FIG. 2D  illustrates a reverse view of the (non-transparent) fence post  7  of  FIG. 2C .  
         [0029]     An important difference between the safety switch assembly shown in  FIG. 2  and safety switches of the prior art is that the safety switch of  FIG. 2  is provided within, and thereby protected by, the fence post  7 . Prior art safety switches are conventionally fixed to the exterior of a fence post. They protrude from the post and are therefore susceptible to suffering damage.  
         [0030]      FIG. 3  illustrates part of an enclosure which may contain dangerous machinery to which access is to be controlled by the safety switch described above. The enclosure is formed from a wire fence  7 A and a gate  8 . The gate  8  is pivotably attached to a first fence post  7 B, and closes to a second fence post  7 C. As shown in  FIG. 2A , the safety switch is located within a fence post (in this case the second fence post  7 C). Access to the safety switch for an actuator  5  is provided by a slot  6  in the second fence post  7 C. The actuator  5  is located on the gate  8 . The pair of notches (not visible in  FIG. 3 ) of the safety switch and the actuator  5  are positioned such that, upon closure of the gate  8 , the actuator  5  passes through the slot  6  and engages with the pair of notches.  
         [0031]     An advantage of the embodiment of the invention, which is apparent from  FIG. 3 , is that it is difficult to tamper with the safety switch. In order to tamper with the safety switch, a user would need to be inside the enclosure, and would also need to remove the safety switch from the second fence post  7 C. Prior art safety switches are more readily tampered with, in that all that is needed in order to do so is to remove a front cover of the safety switch. It will also be appreciated that in locating the safety switch in the second fence post  7 C (or any suitable supporting structure), it will be possible to connecting the safety switch to an electrical circuit by feeding electrical cabling through the supporting structure. If this configuration is desirable, an aperture  1 A in the base plate  1 A is no longer required.  
         [0032]     The above-mentioned embodiment of the invention overcomes many of the disadvantages identified above. It may still be possible for a person to obtain a copy of the actuator  5  which is attached to the gate  8 , and use this to deactivate the safety switch. This would allow electrical power to be supplied to machinery within the enclosure, without the gate  8  to the enclosure being closed.  
         [0033]     An embodiment of the invention solves this problem by providing the safety switch with an additional security measure.  FIG. 4A  is a perspective view of a safety switch incorporating such an additional security measure.  FIG. 4B  illustrates an actuator  500  to be used in conjunction with the safety switch of  FIG. 4A . The safety switch of  FIG. 4A  is substantially the same as the safety switch of  FIG. 1A , comprising a base plate  100 , onto which are mounted contacts  200 A,  200 B, an axially-movable rod  300 , and a cam arrangement  400 . As with the safety switch of  FIG.1A , the base plate  100  is provided with an aperture  100 A for connection of electrical cables to the contacts  200 A,  200 B. In terms of the operation of the device, the safety switch of  FIG. 4A  works in much the same way as described above in relation to the safety switch of  FIG. 1A . The difference between the safety switch of  FIG. 1A  and the safety switch of  FIG. 4A  is the inclusion of a barcode reader  1000 . The barcode reader is located adjacent the cam arrangement  400 , and is configured to read a barcode  1001  provided on the actuator  500 .  
         [0034]     In use, the actuator  500  is made to engage with the pair of notches (not visible) provided in the actuator. As with the safety switch illustrated in FIGS.  1  to  3 , if the shape of the actuator  500  is as required to engage the pair of notches, this security measure is satisfied. However, in addition to this physical interaction between the actuator and the pair of notches, the safety switch of  FIG. 4A  comprises an additional security measure. Only if the barcode  1001  on the actuator  500  is detected and deemed acceptable by the barcode scanner  1000  is the mechanism of the safety switch engaged. This is achieved by the barcode reader  1000  reading the barcode  1001  and comparing it with a list of acceptable barcodes, which may for example be stored in a database or other storage medium (not shown). If the barcode  1001  is acceptable, an additional electrical switch (not shown) is closed. This completes activation of the safety switch, i.e. the contacts  200 A,  200 B are closed and the additional electrical switch is closed, thereby allowing electrical power to be supplied to machinery connected to the safety switch.  
         [0035]     It will be appreciated that a user attempting to circumvent the safety measures provided by the switch may attempt to tamper with the contacts  200 A,  200 B. It will however be extremely difficult if not impossible for the user to circumvent the barcode scanning security measure using only mechanical means. The additional electrical switch may be remotely located in order to make tampering with the additional electrical switch more difficult.  
         [0036]     It will be appreciated that an actuator having the correct bareode will be located on a gate to the enclosure. It may be desirable for a supervisor (for example) to have a spare actuator having an acceptable barcode in case the machinery needs to be operated while the gate is open.  
         [0037]     It will be appreciated that unique identifiers other than barcodes, and apparatus for reading or detecting those identifiers, may be used. In general terms, the additional security measure may a detector for obtaining an electrical signal representing an identifier and a comparator for comparing it with one or more acceptable identifiers. The electrical signal may be obtained electronically or optically, the detector being any suitable electronic or optical detector. The comparator may comprise for example a microprocessor configured to compare an electrical signal representing a detected identifier with a database of signals. Alternatively, the comparator may comprise a dedicated electrical circuit.  
         [0038]     The actuator may for example incorporate an extremely short-range radio transmitter which may interact with a radio receiver in the safety switch. It will be appreciated that the unique identifier (or a range of unique identifiers) may be stored on a chip (or memory) within the safety switch itself. Alternatively, the actuator may be provided with a passive radio frequency tag, power to which is provided by a radio frequency reader located in the safety switch. Preferably, the additional security measure does not involve any physical contact between the identifier provided on or within the actuator and the reading apparatus. This makes it difficult for a user to circumvent the additional safety measure using only mechanical means (e.g. a screwdriver or an actuator without an identifier). Thus, preferably reading of the identifier is achieved by way of electromagnetic waves or pressure waves.  
         [0039]     The above-mentioned embodiments of the invention have been described in relation to a specific safety switch. However, it will be appreciated that the present inventions are equally applicable to any safety switch. For example, the safety switch located in a supporting structure maybe a non-contact switch, i.e. a switch that does not require a physical actuator or key to enter the switch mechanism to activate it. For example, the non-contact switch may be a magnetic switch. Alternatively, the non-contact switch may be a light curtain (i.e. a switch that is activated when a beam of light is broken). In a non-contact switch, the ‘actuator’ may be a magnetic field or a beam of light (or a break in that beam) that in some way engages or interacts with the safety switch. The safety switch may be provided with locking means for locking the gate  8  to the second fence post  7 C.  
         [0040]     While the above-mentioned embodiments describe a safety switch located within a fence post, it will be appreciated that the safety switch may be located in any suitable supporting structure. For example, the supporting structure may be a door frame, a gate post, a fence post or a window frame. The safety switch may be located in a supporting structure of an enclosure or an access point thereto. For example, the safety switch may be located in a door, a gate or a window, in which case, the actuator may be located on a door frame, a gate post, a fence post or a window frame.  
         [0041]     It will be appreciated that an enclosure may be anything which encloses electrically powered equipment, the power supply to which is controlled by a safety switch. An enclosure may be, for example, a room, a cage or a fully or partially fenced off area.  
         [0042]     It will be appreciated that the above embodiments of the invention have been described by way of example only, and various modifications may be made to these embodiments without retracting from the invention, which is defined by the claims, which follow.