Electric Locks for Door Access Control(498)
SALTO Systems' latest electronic access control innovations include its class leading NFC (Near Field Communications) solutions, its RFID wireless products for Residential, Healthcare and Education applications, Sallis wireless technology for integrations and Clay™ SALTO’s new secure cloud based access control system that is revolutionary in design, usability and features. Other new innovations include the versatile GEO (Global Electronic Opening) electronic cylinder lock now available with a stylish white reader, as well as GEO Wireless. Modular, flexible and easy to fit, the IP66 rated SALTO GEO can be used in any type of door. Part of SALTO’s innovative 360° wire free locking solution, it is fully compatible with most RFID technologies meaning no more problems with master key management. SALTO also provides the XS4 electronic locker lock, now available with HiD iClass technology, and designed to provide a high level of security protection and control access to a wide range of lockers, cupboards, display cabinets, boxes, cases and more.Add to Compare
As building security becomes smarter, the need for electronic access control systems spreads further. Wired access points and security doors have long been the backbone. Yet at the same time, even buildings with extensive electronic systems leave mechanically locked doors unmonitored and unguarded — and certainly not “smart”. Mechanical locks cannot be connected. Thankfully, the latest generation of wireless locks can replace them easily and integrate them seamlessly within almost any access system. A recent industry survey — cited in the “Wireless Access Control Report 2018”, from ASSA ABLOY and IFSEC Global — finds integration is an increasing concern. Over 90% of industry professionals polled for the report suggest integrating security systems with each other (and with other smart building systems) has increased in importance in the last few years. Integration is a recurring theme in conversations among professionals. For 53% of survey respondents, easy integration with CCTV, alarms, time and attendance, lighting and HVAC would make them interested in upgrading to a particular product — more than any other factor. Forty-three percent said easier integration with existing access control systems would make them more likely to upgrade. But why the focus on integration? What are the advantages? Why integrate? Fewer security interfaces are easier to support and so require less training. Integration can also enhance the experience of building occupants. One credential opens the car park, then the building, and accesses their laptop and buys lunch in the café. Integration across the business also means security systems — and security teams — contribute to business efficiency, not just the protection of people, premises and other assets. Integrate HR systems with your access control system, for instance, and smart access cards can be automatically revoked when people leave the organization, reducing overheads and even headcount. A majority of those polled for the “Wireless Access Control Report 2018” believe it very important (58%) that access control supports open standards in order to be flexible and future-proofed. A huge majority (91%) consider it at least somewhat important. Future-proofing is high on any list of procurement criteria. Will your system accommodate a changing business and the evolution of functions within it? Can you extend access control with components that contribute to, rather than detract from, the flexibility of all your building systems? The solution to extend access control Expanding the coverage of traditional locks can be expensive and intrusive. But one fast, easy and cost-effective alternative enables you to forget about keys and the hassles of key management: wireless devices like Aperio®, battery-powered locks with integrated RFID-readers. The aforementioned report cites growth forecasts for the wireless access control market of around 8% annually through 2025. The ease and cost-efficient integration wireless offers is surely driving this growth. Because Aperio® has an open architecture, it is flexible and modular, so those who already have wired access control and want to add more doors to their existing system find wireless is the solution. Aperio® wireless locks integrate with security systems from over 100 different OEMs worldwide, for new installations or to upgrade an existing system. Integration is seamless, extending the reach of an existing system with future-proofed devices. Security administrators operate the new Aperio®-equipped doors from the same interface as the installed system. Site users carry a single smart access card for all doors, and other functions like canteen payments or library loans are just as easy to integrate. What if your security system uses mechanical keys, without electronic access control? Wireless locks like Aperio® can also be the right solution. Battery-powered Aperio® RFID-equipped cylinders, escutcheons, handles and locks can be fitted as a new access control system, or extend an existing installation by linking new doors to the same system wirelessly. There’s no need for staff to swap their key-cards, nor for anyone to carry more than one credential. Aperio® locks work within almost every major access control ecosystem on the planet, from over 100 different manufacturers. They are energy-efficient, with batteries lasting an average of 40,000 cycles (typically 2 years) before they need replacing. “It’s easy to start the upgrade process,” says Matthias Weiß, Aperio® Product Manager at ASSA ABLOY EMEA. “Your security or facilities manager only needs to contact their regular access control provider to find out if they offer Aperio®. We can upgrade nearly any system.” Aperio® integrates access control — quickly and painlessly Installing wireless locks is also more cost-effective than hard-wiring more doors, because there’s no cabling or invasive building work around the door. Changing door hardware is unnecessary. For example, it’s fast and easy to switch a mechanical handle for an Aperio® wireless handle with integrated RFID reader, to bring more doors into an access system. (Installation takes mere minutes: see https://youtu.be/lr6Sw95qqm8) Aperio® devices with built-in RFID readers fit almost any opening or security level. Aperio® locks protect both exterior and interior doors, from fire and escape route doors to meeting rooms, labs and offices; wooden, glass or aluminum doors are no obstacle. The portfolio includes cylinders, escutcheons and complete locks for security doors, plus a revolutionary new wireless handle with integrated RFID reader, which recently won Intersec’s Access Control Product of the Year. Aperio® locks are compatible with all common door profiles: Euro, French, Finnish, Scandinavian and Swiss. Integration with your existing system can be Online or Offline, or both. Learn more about Aperio®, visit https://campaigns.assaabloyopeningsolutions.eu/aperioAdd to Compare
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- Solenoid Bolts
Electronic lock system products updated recently
In part one of this feature, we introduced the shotbolt – a solenoid actuator – as the workhorse at the heart of most straightforward electric locking systems. Shotbolts remain at the core of most sophisticated electric locking solutions as well. But they are supplemented by materials and technologies that provide characteristics suited to specialist security applications. Here we look at some more demanding electric locking applications and contemporary solutions. Preventing forced entry Where the end of the shotbolt is accessible, the electric holding force can be overcome by physical force. That’s why anti-jacking technology is now a frequent feature of contemporary electric solenoid lock actuators. Anti-jacking, dead-locking or ‘bloc’ technology (the latter patented by MSL) is inherent to the way the locking assembly is designed to suit the requirements of the end application. The patented bloc anti-jacking system is highly effective and incorporated into many MSL shotbolts deployed in electric locking applications. The bloc technology uses a ring of steel balls in a shaped internal housing to physically jam the actuated bolt in place. A range of marine locks is widely used on Superyachts for rapid lockdown security from the helm Real life applications for MSL anti-jacking and bloc-equipped shotbolts include installation in the back of supermarket trucks to secure the roller shutter. Once locked from the cab, or remotely using radio technology, these shutters cannot be forced open by anyone with ‘undesirable intentions’ armed with a jemmy. A range of marine locks is widely used on Superyachts for rapid lockdown security from the helm. While anti-jacking features are an option on these shotbolts, consideration was given to the construction materials to provide durability in saltwater environments. Marine locks use corrosion-proof stainless steel, which is also highly polished to be aesthetically pleasing to suit the prestigious nature of the vessel while hiding the innovative technology that prevents the lock being forced open by intruders who may board the craft. Rotary and proportional solenoids sound unlikely but are now common A less obvious example of integrated technology to prevent forced override is a floor lock. This lock assembly is mounted beneath the floor with round-top stainless-steel bolts that project upwards when actuated. They are designed to lock all-glass doors and are arguably the only discreet and attractive way to lock glass doors securely. In a prestigious installation at a historic entranceway in Edinburgh University, the floor locks are remotely controlled from an emergency button behind the reception desk. They act on twin sets of glass doors to quickly allow the doors to close and then lock them closed with another set of subfloor locks. No amount of stamping on or hitting the 15mm protruding bolt pin will cause it to yield, thus preventing intruders from entering. Or leaving! Explosion proofing In many environments, electric locking technology must be ATEX certified to mitigate any risk of explosion. For example, remote electric locking is used widely on oil and gas rigs for stringent access control, general security and for emergency shutter release in the event of fire. It’s also used across many industrial sectors where explosion risks exist, including flour milling, In many environments, electric locking technology must be ATEX certified to mitigate any risk of explosionpowder producers, paint manufacture, etc. This adds a new dimension to the actuator design, demanding not only intrinsically safe electrical circuits and solenoid coils, but the careful selection of metals and materials to eliminate the chance of sparks arising from moving parts. Resilience under pressure The technology boundaries of solenoids are always being pushed. Rotary and proportional solenoids sound unlikely but are now common. More recently, while not directly related to security in the traditional sense, proportional solenoid valves for accurately controlling the flow of hydrogen and gases now exist. Magnet Schultz has an extensive and somewhat innovative new range of hydrogen valves proving popular in the energy and automotive sectors (Fig. 2-6). There’s a different kind of security risk at play here when dealing with hydrogen under pressures of up to 1050 bar. Bio security Less an issue for the complexity of locking technology but more an imperative for the effectiveness of an electric lock is the frequent use of shotbolts in the bio research sector. Remote electric locking is commonplace in many bioreactor applications. Cultures being grown inside bioreactors can be undesirable agents, making 100% dependable locking of bioreactor lids essential to prevent untimely access or the unwanted escape of organisms. Again, that has proven to be topical in the current climate of recurring coronavirus outbreaks around the world. More than meets the eye In part one, I started by headlining that there’s more to electric lock actuation in all manner of security applications than meets the eye and pointed out that while electric locking is among the most ubiquitous examples of everyday security, the complexity often involved and the advanced technologies deployed typically go unnoticed.Integrating the simplest linear actuator into a complex system is rarely simple For end users, that’s a very good thing. But for electro-mechanical engineers designing a system, it can present a challenge. Our goal at Magnet Schultz is to provide a clearer insight into today’s electric locking industry sector and the wide range of locking solutions available – from the straightforward to the specialized and sophisticated. Integrating the simplest linear actuator into a complex system is rarely simple. There’s no substitute for expertise and experience, and that’s what MSL offers as an outsource service to designers. One benefit afforded to those of us in the actuator industry with a very narrow but intense focus is not just understanding the advantages and limitations of solenoid technology, but the visibility of, and participation in, emerging developments in the science of electric locking. Knowing what’s achievable is invaluable in every project development phase.
A defibrillator can save the life of a person suffering from cardiac arrest – but it is most effective when used in the first few minutes of the patient collapsing. Studies have shown that a shock given within the first three minutes provides the best chance of survival and even one minute of further delay can substantially lower the chances of recovering. Public Access Defibrillators (PADs) were created to allow untrained members of the public to deliver life-saving treatment in those precious minutes before an ambulance arrives. There are currently over 10,000 in the UK, located in parks, offices, high streets and sporting venues, and they are especially popular in rural communities, where ambulance response times are longer. Every second counts Over the years there has been a long-running debate as to whether PADs should be kept openly accessible or locked. Leaving them open could lead to theft, vandalism or misuse. Leaving them locked could mean that precious moments are lost waiting for a local guardian to arrive – and could even cost a life. To save as many lives as possible, it’s clear that PADs need to be available 24/7, fully operational and easily accessible to users and local guardians. But there is a solution that can meet all these conditions – a lock that can protect against vandalism while providing convenient instant access when required. Life-saving solutions Over the years there has been a long-running debate as to whether PADs should be kept openly accessible or lockedDigital locks are ideal for securing PADs because they don’t require a key, and anyone can be given access over the phone. In the case of a cardiac arrest, the user calls 999 and the ambulance controller provides them with a simple, easy-to-remember code. The ambulance controller can then advise them, step by step, what to do. Local guardians, who have responsibility for the PAD, can be provided with an override key to enable them to monitor and maintain the defibrillator. The PAD cabinets built by Duchy Defibrillators show exactly how this works in practice. Based in rural Cornwall, Duchy Defibrillators manufactures, supplies and installs monitored PAD cabinets. To provide public access to the defibrillators, it needed a lock that could keep its cabinets secure, make them easily accessible and withstand the stormy Cornish weather. Codelocks recommended a digital electronic lock that could operate on a standalone battery, making it especially suitable for remote areas. As well as offering flexible access, digital locks come with a range of varying options and functions to suit different applications. As Duchy Defibrillator cabinets are installed in a wide variety of locations and sometimes need to withstand outdoor exposure, it opted for a robust electronic digital lock that is both affordable and easy to set up. A digital-access revolution Using smart locks in combination with a dedicated app or portal allows operators to send time-sensitive codes to end-users The example of Duchy Defibrillators shows how digital locks can be used to keep defibrillator cabinets secure while affording instant access to users when they are needed. But the flexibility of digital locks also makes them suitable for securing property and equipment in a wide variety of situations, especially for shared and public facilities. This is why you’ll increasingly see digital locks used to secure restricted areas in hospitals, schools and offices, as well as shared facilities like hotel and gym lockers, public restrooms and more. Digital locks are available for a number of specific applications, including doors, lockers and cabinets. They can range from simple mechanical locks through to more sophisticated electronic locks and state-of-the-art smart locks. Using smart locks in combination with a dedicated app or portal allows operators to send time-sensitive codes to end users – making them very popular for contactless entry and with facilities managers that need to manage access to buildings and campuses. One thing is certain – whatever your access control requirements are, there’s a keyless lock solution to suit. The digital access revolution is here.
The experience of the COVID-19 pandemic has made us all more conscious of who is coming and going from our property. Whether it is a family home, business premises or public building, property owners want full control over access for protection and peace of mind. As a provider of access control technologies, we are seeing a growing demand for automated gates with a variety of access control systems. There are a number of considerations that buyers need to make when investing. And as an installer, there is advice that you can offer to help your clients make the right choice for their property. Here are some of the key considerations you’ll need to make and discuss with your client. Whomever you buy from, you should be offered more than a simple instruction manual. Electronic locks, magnetic locks and code security In the first instance, you’ll need to advise on the type of lock and access control available. Electronic locks release on the operation of the automation system to allow the gates to open. Locks are required for all non-locking (also known as reversible) operators and are recommended for any gate on a multi-user site or any gate over 2.5m. Apply the same logic to an automated gate as you would to a domestic door – for example, you wouldn’t fit your front door with a lock on the same side as the hinges or a drop bolt at the hinge end of a manual gate so why dispense with this logic when the gate is automated? Electronic locks release on the operation of the automation system to allow the gates to open There are a number of locks on the market including magnetic locks, drop locks that “shoot” a bolt into the ground and side latching locks. These are all designed for external use. While the gate itself will provide physical security, the customer will want to feel in control of who enters their property, when and for what purpose. Consider access for mail and deliveries, waste disposal and visitors arriving on foot etc. There is a range of options available. Intercom systems will allow the user to vet visitors, keypad entry can allow remote access for visitors with a specific code, remote controls allow an oncoming driver to open the gates without getting out of the vehicle, and a timer control can be used to open or close the gates at certain times of the day. Vehicle detection loops can be installed discreetly under the tarmac allowing the presence of vehicles to exit the gates and prevent closing while obstructed. Sliding gates versus swinging gates There are a number of locks on the market including magnetic locks, drop locks that “shoot” a bolt into the ground and side latching locks Gates can be automated to either swing or to slide open and in the case of swinging gates, the opener may be concealed underground or gate mounted. The most suitable opener for your installation will depend on the space available and the type of gate selected. Concealed underground automation is ideal for highly ornate gates. However, where gates are fully infilled (typical of many timber designs), gate mounted openers are concealed from the front of the gate by the gate leaf and present a cost-effective option. The choice between slide and swing is largely down to space - swing gates require a clear space for their opening arc while sliding gates require space to one or both sides of the gate. Sliding gates are perhaps the best choice where the drive slopes or when drive space is limited, as they use the least space when opening. Voltage Most swing gate and sliding systems are available in 24v or 230v. The 24v systems still need 230v mains power – there is a transformer built into the 24v control panels. Deciding which voltage to use can include a combination of factors such as the material of the gates, the location of the system and the safety features you want. Concealed underground automation is ideal for highly ornate gates With wrought iron gates, the wind can pass through them whereas with fully boarded wooden gates (popular because they give full privacy) the wind has nowhere to go, so they act like sails. For commercial or industrial applications with larger entrances and a heavy gate, you may need 3 Phase 400v power (sliding gates only). Installing gate motors in confined spaces The environment in which you are fitting may well influence which gate and motor you recommend. Will it be in an exposed area which is subject to the elements? Will it be positioned on a slope? Sliding gates are perhaps the best choice where the drive slopes or when drive space is limited Installers have always faced the challenge of installing gate motors in confined spaces. When fitting a pedestrian gate, there is often limited space in which to work – potentially making an installation time consuming and technically demanding. If this is the case for you, consider a gate operator which is designed specifically for installations with limited space for maneuver. An example of this is the E5 compact gate operator. The operator is not only small but has an optional slide lever attachment designed for installations where there is extremely limited space, meaning that just 8cm of the pillar is needed for installation. What’s more, improved fixing points and a simple ‘hook and fasten’ process means assembly is safe, quick and straight forward. Ultimately, you’ll be looking for a good quality, reliable product with good service. Work with a supplier that offers more than just a manual. If they are happy to offer training, their time and advice when you buy, the chances are you’ll get their support long term.
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