(Click here to view article in digital edition)
The demand can perhaps most easily be categorised as:
- Very low level – no access restriction but protection of personnel and equipment required – a simple wing knob latch may be sufficient.
- General access limited and equipment protection needed – but a simple key system is needed – perhaps a quarter turn lock with a triangular key.
- Restricted access and equipment protection – but low value or risk – a higher security key system is appropriate; a profile cylinder key lock would be a suitable choice.
- Higher risk or value – perhaps requiring an electronic mechanism e.g. specialist private manufacturing establishments or research centres.
- Very high risk/value e.g. data centres or utilities where a comprehensive logging/monitoring and control system is vital – remotely accessible ego via an encrypted internet link.
In turn, these have an effect on usage of materials and the design concept. In this respect the trend is toward increasing sophistication – it’s no longer acceptable to open a control or data cabinet with a screwdriver if you don’t have the key! So where once a wing knob latch was sufficient it is important to consider the need for keylocks – perhaps to IP65 or even IP69 and the option of vibration resistant compression locks which prevent nuisance door opening, as well as more complete gasket pull-down and consistently higher IP sealings.
The question is simply: “is a compression facility beneficial and where?” Well certainly the anti-vibration role of these locks is excellent in preventing opening of panels such as on trucks, railway rolling stock gensets, aircon and heating and ventilating systems. The answer is increasingly “yes”.
Compression lock/latches are valuable in environments where health and safety are critical in that people must be protected from the equipment they are operating and sometimes even from themselves. This is often a high priority where parallel developments in hygiene regulations have led to more use of stainless steel and designs without cavities which would collect debris and are therefore more easily cleaned – a move which has also led to increased use of high degrees of IP sealing to resist frequent high-pressure washes.
The ubiquitous ¼ turn latch lock changes incrementally as customers demand smooth, cavity-free designs suited to food processing plants and high sealing to withstand regular pressure washing.
Plastics are no longer in the dark ages and new generations of reinforced engineering grades enable tolerances to be reduced, leading to closer fitting, more robust assemblies which slide more easily with better operator feel and better sealing. These are now often the first port of call for corrosion resistant installations and so can frequently replace expensive metals.
For reasons of enhanced environmental requirements, cost and user friendliness – swinghandles are now produced with “O” rings and PUR seals giving excellent sealing for all applications. Glass reinforced polyamide was introduced as the industry developed slim, strong handle designs alongside stainless steel variants in AISI 304 or 316.
On the question of sealing we can now source pre-cut, pre-assembled and vulcanised gaskets, installation-ready without messy cutting and gluing which has significant positive implications for sealing levels. EMC gaskets are mainstream, while a major demand has been identified for fire protection and high temperature gaskets in EPDM and silicone.
With increasing use of technologically driven solutions in all fields of industry the need for basic mechanical security is expanding rapidly and the new biometric/digital/card-based systems are finding their way “down” to levels where once a cheaper ¼ turn lock “would do”, but is no longer considered appropriate.
In most high security locations security problems begin with the fact that keys and key cards can become separated from their authorised users. Any key or key card that is forgotten, lost, stolen, or otherwise separated from an authorised user represents a potential, undetected security breach, while the greater the number of keys and key cards in a given environment, the greater the possibility of unauthorised access to physical systems or data assets.
At the high-tech end data has become extremely valuable so we have seen the need for 100% bullet-proof systems of monitoring, alarm and control leading to biometric technologies being applied at the cabinet door linked often to the internet via encrypted channels.
In these applications there is a vital need for accurate and reliable access logs and for deterrence from unauthorised ingress/vandalism/ theft of data - and this is where the BioLock, using state-of-the-art fingerprint recognition in conjunction with PIN codes and RFID access cards, provides an extremely high 3 level security protection.
About the author:
Coming from an electrical background where Andy worked at various companies in the panel industry mainly problem solving, he found an interest in selling. His next move was to join EMKA as a Technical Sales Engineer where this experience allowed him to develop into Technical Manager. Further career development lead to the role of Sales Manager which in turn made him the ideal candidate to take over as the company MD when the previous one retired. Andy has now run EMKA UK for the last 12 years which he has enjoyed as the team continues to mature in both ability and age.
Print this page | E-mail this page
Discover the future of engineering today
Download a copy of our digital magazine