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You want a reliable magnetic door lock, but you may worry about handling the installation yourself. This guide gives you confidence by breaking down each step. Even if you have never installed a lock before, you can follow this guide and avoid common mistakes. You get simple troubleshooting advice, so you fix most problems on your own.
Trust this guide for a smooth installation and dependable results.
Magnetic door locks use electromagnetism to secure doors with strong holding force and quick release.
Proper preparation with the right tools and safety checks is essential before installation.
Accurate marking and alignment of the magnet and armature plate ensure the lock works reliably.
Follow wiring instructions carefully and verify power supply matches lock requirements to avoid malfunctions.
Test the lock's engagement and release functions thoroughly after installation to confirm proper operation.
Regular inspection, cleaning, and tightening of hardware keep the lock working well and prevent issues.
Common problems like power issues, misalignment, or noises can often be fixed with simple troubleshooting steps.
Call a professional if you face electrical hazards, major repairs, or complex access control setups for safety and code compliance.
Understanding magnetic locks helps you make informed choices and ensures safe, reliable operation. You see maglocks in many industries, from commercial buildings to marine vessels. They offer benefits over traditional locks, such as quick release and strong holding force. You need to know the main components and how electromagnetic locks work before starting any installation.
You find the magnet as the core of every magnetic lock. It uses electromagnetism to create a powerful holding force. Most maglocks use a ferromagnetic core, such as soft iron, to boost magnetic strength. The magnet's size and material affect its performance and durability. Protective finishes like powder coating or electroplating help resist corrosion, making maglocks suitable for harsh environments. You often see these magnets in applications that demand high security, such as access panels in industrial settings or secure doors in commercial spaces.
The armature plate attaches to the door and works with the magnet to form a secure bond. When you close the door, the plate aligns with the magnet, completing the circuit. The plate's material, usually steel or alloy, ensures maximum magnetic flux and holding power. You must keep the plate clean and properly aligned for the magnetic door lock to function well. In many applications, such as automotive glove boxes or marine hatches, the armature plate's design supports easy one-hand operation and reliable security.
Every electromagnetic lock depends on a stable power source. You must check power supply requirements before installation. Most maglocks operate at 12 or 24 volts DC. Some models feature automatic voltage selection, making them flexible for different systems. Reliable power ensures the lock holds the door securely and releases it when needed. You also need to consider backup power for critical applications, such as fire exits or emergency doors.
Tip: Always verify the power supply matches the lock's voltage and current draw to avoid malfunctions.
Specification | Details |
---|---|
Hold Force | 1,500 lb. (single door), 1,500 lb. per leaf (double door) |
Current Draw | 0.65A @ 12 VDC, 0.35A @ 24 VDC (single door); 1.3A @ 12 VDC, 0.7A @ 24 VDC (double door) |
Certifications | UL10C, UL1034, UL294, ANSI/BHMA Grade 1 |
Features | AVS, magnetic bond sensor, relock time delay, anti-tamper switch |
These technical details show why maglocks deliver strong, reliable performance in demanding applications.
You activate a magnetic door lock by sending current through the magnet's coil. This creates a magnetic field that pulls the armature plate tight, locking the door. When you cut the power, the magnetic field disappears, and the door unlocks. Electromagnetic locks use ferromagnetic materials to maximize holding force. The lock's strength depends on the quality of the materials and the current supplied.
Scientific principles explain how maglocks operate:
Aspect | Explanation |
---|---|
Principle | Ferromagnetic materials reach near saturation, allowing strong magnetic flux lines to pass through. |
Defect Effect | Any defect in the material increases resistance, weakening the magnetic field. |
Magnetic Flux Leakage | Distorted flux lines leak out, reducing holding power. |
Detection Method | Sensors can detect these leaks, helping you diagnose issues. |
You see maglocks in many applications because they offer benefits over traditional locks. They provide fast, secure locking for doors, cabinets, and access panels. You also find them in environments where corrosion resistance and easy operation matter, such as aerospace and marine industries. Understanding these basics helps you select the right magnetic door lock systems and ensures you meet safety codes and technical standards.
Magnetic locks appear in commercial, industrial, automotive, aerospace, and marine applications.
You must understand magnetic lock basics to comply with safety codes like NFPA 101 and IBC.
Proper installation and integration with access control systems depend on this knowledge.
Industry standards and certifications, such as UL294 and ANSI/BHMA, highlight the importance of correct installation.
You now have a solid foundation for working with electromagnetic locks. This knowledge prepares you for the next steps in installing and troubleshooting maglocks.
Before you start the installation, you need to gather the right tools and materials. Careful preparation helps you avoid common installation issues and makes the installation process smoother. You also need to check safety and inspect the door and frame to ensure everything fits and works as intended.
You need the following items for a successful installation:
Installation template (usually included with the lock)
Power drill and drill bits
Screwdrivers (Phillips and flathead)
Screws and anchors (provided in the kit)
Wire strippers and cutters
Electrical tape or wire connectors
Level
Measuring tape
Pencil or marker
Cleaning cloth
Multimeter (for checking voltage)
Magnetic door lock kit (magnet, armature plate, mounting brackets)
Access control device (if required)
Safety glasses and gloves
Tip: Lay out all tools and materials before you begin. This step saves time and helps you avoid missing parts during the installation process.
Safety should always come first. You must disconnect the power supply before you start any installation work. Wear safety glasses and gloves to protect yourself from debris and sharp edges. Check the area for any hazards, such as exposed wires or unstable surfaces. If you work on a commercial site, follow all local safety codes and building regulations.
Double-check the power supply requirements for your magnetic lock.
Make sure the work area is dry and well-lit.
Keep tools organized to prevent accidents.
Note: Never attempt installation on a live electrical circuit. Always verify the circuit is off using a multimeter.
You need to inspect the door and frame before starting the installation process. This step ensures the lock will fit and operate correctly. Many common installation issues happen because of poor alignment or incompatible materials.
Confirm the door and frame are strong enough to support the magnetic lock.
Measure the thickness and width of the door to match the lock specifications.
Check for any warping, damage, or irregularities in the door or frame.
Make sure the door swings freely and closes tightly.
The importance of door and frame compatibility comes from industry standards:
Coordination of door hardware schedules with doors and frames ensures correct size, thickness, hand, function, and finish.
A final field inspection by the supplier verifies that installed door hardware complies with requirements, including proper installation, operation, and adjustment.
Initial adjustment procedures require checking each door hardware item and door to ensure proper operation, with replacement of units that cannot be adjusted.
Adjustments must also consider final operation conditions such as heating and ventilating equipment and accessibility requirements.
You avoid many common installation issues by following these inspection steps. Proper inspection supports the ease of installation and helps you achieve a reliable result. If you find any problems, fix them before you continue the installation process.
Accurate marking is the foundation of a successful magnetic lock installation. You need to mark the lock position precisely to ensure the magnet and armature plate align perfectly. This step prevents future problems and guarantees the magnetic lock works as designed.
Most maglocks include an installation template. You should use this template to simplify the detailed installation process. Place the template on the door frame where you plan to mount the magnet. Make sure it sits flat and lines up with the edge of the frame. Use a pencil or marker to trace the holes for screws and wiring.
Tip: Double-check the template's position before marking. Even a small shift can cause misalignment later.
Follow these steps for precision:
Measure the door and frame. Check for existing hardware and note all dimensions.
Place the template at the chosen spot. Confirm it matches the lock's specifications.
Mark all screw and wiring holes clearly.
Remove the template and inspect your marks. They should be sharp and easy to see.
Precision matters. Advanced magnetic position sensors, like those using Hall effect or magnetoresistive technology, help manufacturers design templates that support accurate placement. These sensors ensure the template aligns with the magnetic field, which improves the reliability of the magnetic lock door installation.
Alignment is critical for the magnetic lock to function. The magnet and armature plate must meet squarely when the door closes. If they do not align, the lock may not hold or release properly.
To align the magnet and plate:
Close the door gently.
Hold the magnet in place on the frame.
Position the armature plate on the door so it faces the magnet directly.
Use a level to check both components. They should sit parallel and flush.
Note: Misalignment can reduce holding force and cause the lock to fail. Take your time during this step.
You may need to adjust the template or marks slightly. The detailed installation process often requires small tweaks for perfect alignment. Mark the final positions for both the magnet and plate before moving to the next step.
Once you finish marking, you can start mounting the magnet. This part of the installation process requires careful drilling and securing to ensure the magnet stays in place and operates correctly.
Begin by drilling pilot holes at the marked spots. Pilot holes guide the screws and prevent the wood or metal from splitting. Use the correct drill bit size for your hardware.
Drill straight and steady. Avoid widening the holes.
Clean away any dust or debris after drilling.
Next, position the magnet over the holes. Insert the screws and tighten them. Do not over-tighten, as this can damage the magnet or frame. The magnet should sit firmly against the frame without gaps.
Tip: Clean the contact surface before mounting. Dust or oil can weaken the magnetic field.
Secure it according to the manufacturer's instructions. Each model may have unique requirements, so always check the manual. The detailed installation process for maglocks often includes checking the power supply voltage at this stage. Use a multimeter to confirm the voltage matches the lock's needs.
The armature plate must attach to the door so it lines up with the magnet. This step in the detailed installation process ensures the magnetic lock holds the door securely.
Hold the armature plate against the door at the marked position. The plate should face the magnet directly. Some plates use a pivot or rubber washer to allow slight movement. This feature helps the plate align perfectly with the magnet every time the door closes.
Attach the plate using the provided screws and hardware.
Tighten the screws until the plate feels secure, but do not over-tighten.
Check that the plate can move slightly if the design allows.
Note: Test the door by closing it gently. The plate should meet the magnet without resistance.
After installing a magnetic lock, always test the alignment. If the plate does not meet the magnet squarely, adjust the screws or reposition the plate. The step-by-step guide recommends a final inspection to confirm everything fits and works smoothly.
A precise installation process, supported by accurate marking and careful alignment, ensures your magnetic lock delivers reliable security. You now have the foundation for wiring and powering your maglocks.
Proper wiring ensures your magnetic lock works safely and reliably. You need to follow each step carefully to avoid electrical hazards and ensure compliance with building codes.
You start by connecting the power supply to the magnetic lock. Most magnetic locks operate on either 12 VDC or 24 VDC. Check the lock's label or manual for the correct voltage. Use a multimeter to confirm the output from your power supply matches the lock's requirements.
Strip the wire ends cleanly.
Connect the positive and negative wires to the correct terminals on the lock.
Secure the connections using wire connectors or electrical tape.
Double-check polarity. Reversed wires can prevent the lock from working.
Tip: Always turn off the power before making any connections. This step protects you from electric shock and prevents damage to the lock.
You must follow electrical safety standards during installation. These standards help protect people and property:
Electromagnetic locks must be UL Listed for their intended use.
Components in the locking system should be UL recognized.
ANSI and BHMA standards apply to performance and safety.
The local Authority Having Jurisdiction (AHJ) approves installations.
Control circuits must allow immediate egress during emergencies.
Power to the locks often integrates with fire alarm systems for emergency unlocking.
Building and fire codes, such as NFPA 80 and NFPA 101, ensure safe egress and fire door compliance.
Most jurisdictions require fail-safe operation, so the lock releases when power is lost.
You run wires and fit the lock according to the manufacturer's instructions. Keep wires neat and away from moving parts. Use cable clips or conduit for extra protection.
Many magnetic lock installations include access control devices, such as keypads, card readers, or push-to-exit buttons. You connect these devices to the lock's control circuit.
Identify the control input terminals on the magnetic lock.
Connect the access control device wires to these terminals.
Follow the wiring diagram provided by the manufacturer.
Test each device after wiring to ensure it triggers the lock release.
Note: Access control systems often require separate power supplies. Check voltage and current ratings for each component.
You must ensure the access control system allows for emergency release. Fire alarm integration is common. When the alarm triggers, it cuts power to the lock, allowing safe exit.
After wiring, you power up the system for the first time. This step verifies the magnetic lock operates as expected and meets safety standards.
Turn on the power supply. Listen for a click as the magnetic lock engages. Try to open the door. A properly installed lock should hold the door firmly.
Use a multimeter to check voltage and current at the lock terminals. Compare your readings to industry benchmarks:
Parameter | Value(s) | Notes |
---|---|---|
Voltage | 12 VDC or 24 VDC | Dual voltage specification common |
Current at 12 VDC | Around 0.5 A | May vary by manufacturer |
Current at 24 VDC | Around 0.25 A | May vary by manufacturer |
Power Consumption | 5–6 watts | Typical for magnetic lock systems |
Certification | UL mark recommended | Ensures safety and reliability |
Rectification | Full wave bridge rectifier | For AC to DC conversion |
If the lock does not engage, check your wiring and power supply. Make sure all connections are tight and correct.
You may need to make small adjustments after the initial test. If the lock does not hold, check the alignment between the magnet and armature plate. Adjust the plate or magnet position as needed.
Clean the contact surfaces with a dry cloth.
Tighten any loose screws.
Confirm the door closes fully and the plate meets the magnet squarely.
Test the access control devices again. Each device should release the lock instantly when activated. If you notice any delay or failure, review your wiring and device settings.
Tip: Always verify the lock releases when you cut power. This feature is critical for emergency egress and code compliance.
You have now completed the core steps in the step-by-step guide for installing a magnetic door lock. Careful wiring and thorough testing ensure your magnetic lock provides reliable security and safe operation.
Testing your magnetic door lock ensures it works safely and reliably. You need to check the lock's holding force, test the release function, and confirm the door aligns correctly. Careful testing helps you catch problems early and keeps your security system strong.
Start by checking if the lock engages properly. When you power the system, listen for a solid click as the magnet activates. Try to pull the door open gently. A well-installed lock should hold the door firmly in place.
You can compare your lock's holding force to industry standards. The table below shows typical values for different types of magnetic locks:
Lock Type / Application | Holding Force (lbs) | Notes |
---|---|---|
Basic Door Electromagnetic Lock | ~400 | Standard holding force for basic door locks |
Hybrid Model | Up to 4,000 | Combined holding force for hybrid electromagnetic locks |
Shear Style Locks | 600 to >2,500 | Includes Camden Shear Lock, SDC Hi/Shear, Securitron SAM/SAM2 |
Double Door Example (Camden CX-92S-12) | 2 x 1,200 (2,400 total) | Two surface mount mag locks in aluminum housing |
Recessed Mag Lock (Dynalock 2600 Series) | 650 | Designed for sliding doors with narrow backset |
Surface Mount Shear Style (SDC 1561TJ Series) | 2,000 | Includes field-adjustable shear stops for inswing doors |
Rofu Magnetic Door Locking Device (Model 8122-002) | 2 x 1,500 (3,000 total) | Vertically mounted bar with two electromagnets for single-swing doors, used in secure rooms |
If your lock does not hold as expected, check the alignment and make sure the magnet and plate have full contact. You should also measure the voltage at the lock during operation to confirm the power supply works correctly.
Next, test the release function. Activate your access control device, such as a keypad or push-to-exit button. The lock should release instantly, letting you open the door without resistance. If you notice a delay or the door stays locked, check the wiring and control connections.
You can follow these steps for a thorough release test:
Trigger each access control device one at a time.
Listen for the magnet to disengage.
Open the door smoothly.
Cut the main power to simulate an emergency. The lock should release immediately.
Tip: Always test the lock's release after any wiring changes or adjustments.
Proper door alignment keeps your magnetic lock working well. Misalignment can cause weak holding force or prevent the lock from engaging. Use a level to check the door and frame. The magnet and armature plate should meet squarely every time you close the door.
Here are some best practices for alignment checks:
Inspect the door frame for sturdiness.
Make sure the door swings freely and closes tightly.
Look for oil residue or damage on mechanical parts like door closers.
Perform regular alignment inspections to prevent future issues.
Regular alignment checks help you avoid common locking problems and extend the life of your magnetic lock.
Testing each part of your magnetic lock system gives you confidence in its performance. You can spot issues early and fix them before they become bigger problems.
Power problems cause many common issues with magnetic locks. If your maglocks do not engage or release, you should start by checking the power supply. Use these troubleshooting steps to find the source of the problem:
Measure voltage at the power supply and at the lock using a digital multimeter. The voltage should be within 12VDC ±10% or 24VDC ±10%.
Check for voltage drop, especially if you have long wire runs. Use a voltage drop calculator to predict losses.
Inspect the AC input voltage to the power supply. It should read 110-115VAC.
Examine all wiring for damage or loose connections. Replace worn cables.
Test the lock with a known DC power source. This isolates the device from the rest of the system.
Look for blown fuses or tripped breakers in the circuit.
Use surge suppressors to protect against voltage spikes.
Tip: Never exceed 10% overvoltage at the lock. Too much voltage causes heat and damages the lock.
If you wonder, "do magnetic locks work without power," the answer is no. Maglocks are fail-safe. They unlock when power is lost, which is important for emergency exits.
Misalignment between magnet and plate is one of the most common issues with magnetic door locks. Poor alignment reduces holding force or prevents the lock from working. You can fix these problems by following these troubleshooting steps:
Inspect the door and frame. Make sure the armature plate lines up perfectly with the magnet.
Use a level to check alignment. Adjust the plate or magnet as needed.
Tighten all screws and hinges. Loose hardware causes shifting.
Clean the magnet and plate. Dirt or grease weakens the magnetic bond.
Replace warped or damaged doors. They prevent proper alignment.
Diagnostic Step | What to Check | Result if Faulty |
---|---|---|
Visual Inspection | Plate and magnet alignment | Weak or no holding force |
Hardware Tightness | Screws, hinges, brackets | Lock shifts, misaligns |
Surface Cleanliness | Dirt, grease, debris | Poor magnetic connection |
Regular inspection and adjustment prevent many common installation issues and keep your maglocks reliable.
An unresponsive lock means the magnetic lock does not engage or release when you use the access control. This is a frequent problem in troubleshooting common issues with maglocks. Try these troubleshooting steps:
Gather information about the installation and malfunction.
Check for power at the lock using a multimeter.
Inspect the access control system. Bypass it to test the lock directly.
Test timers and relays for proper operation.
Measure resistance across relay contacts. Replace faulty relays.
Feel the magnet for overheating. Excess heat signals electrical problems.
Replace defective components as needed.
Note: Always follow manufacturer instructions when replacing parts.
You can solve most common issues with magnetic door locks by following these troubleshooting steps. Regular checks and quick fixes help you avoid bigger problems and keep your security system strong.
You may notice unusual noises or heat coming from your magnetic door lock. These signs often point to underlying problems. A humming sound or clicking noise can mean loose parts or electrical issues. Excessive heat may signal an electrical overload or poor ventilation.
Start by listening to the lock when it operates. A quiet click is normal. Loud buzzing or rattling is not. If you hear these sounds, check the mounting screws. Loose screws can cause vibration and noise. Tighten them with a screwdriver.
Heat can build up if the lock receives too much voltage or if wires have poor connections. Use your hand to feel the surface of the magnet. It should feel warm, not hot. If it feels hot, turn off the power. Inspect the wiring for frayed insulation or loose terminals. Replace damaged wires right away.
You can use a table to track possible causes and solutions:
Symptom | Possible Cause | Solution |
---|---|---|
Loud buzzing | Loose screws | Tighten all screws |
Clicking noise | Faulty relay | Replace relay |
Excessive heat | Overvoltage, bad wiring | Check voltage, fix wiring |
Tip: Always check the voltage at the lock terminals. Use a multimeter to confirm it matches the lock's rating.
If you still hear noises or feel heat after these checks, the lock may have an internal fault. Contact the manufacturer for further troubleshooting or consider replacing the lock.
Mechanical obstructions can stop your magnetic lock from working smoothly. You may find the door sticks, drags, or does not close fully. These problems often come from misaligned hardware, debris, or worn hinges.
Begin your troubleshooting by opening and closing the door several times. Watch for any sticking points. Look at the area around the magnet and armature plate. Remove any dirt, dust, or foreign objects. Clean both surfaces with a dry cloth.
Check the hinges and door closer. Loose or sagging hinges can shift the door out of alignment. Tighten all hinge screws. Adjust the door closer if the door slams or does not latch.
Here is a quick checklist for mechanical troubleshooting:
Inspect door hinges for wear or looseness.
Clean the magnet and plate surfaces.
Remove any debris from the door frame.
Adjust the door closer for smooth operation.
Replace worn or damaged hardware.
Note: Regular maintenance prevents most mechanical problems. Schedule inspections every few months.
If you follow these troubleshooting steps, you can fix most mechanical issues without professional help. Keep your lock and door hardware in good condition for reliable performance.
You need to check your magnetic door lock system regularly. Inspections help you find problems early. You can prevent most failures by spotting issues before they grow. Look at the lock, armature plate, and wiring every month. Use a flashlight to see all parts clearly.
Examine the magnet and plate for rust or wear.
Check wires for cracks or loose connections.
Test the lock by opening and closing the door several times.
Listen for strange noises when the lock engages.
Tip: Keep a simple logbook. Write down inspection dates and any problems you find. This habit helps you track changes over time.
A regular inspection schedule keeps your lock system reliable. You can use this sample checklist:
Inspection Task | Frequency | Notes |
---|---|---|
Visual check | Monthly | Look for damage or dirt |
Test lock engagement | Monthly | Ensure strong holding force |
Check wiring | Every 3 months | Tighten loose connections |
Review access controls | Every 6 months | Test all devices |
Dirt and dust can weaken your magnetic lock. You should clean the magnet and armature plate often. Use a dry, soft cloth for most cleaning jobs. Avoid water or harsh chemicals. These can damage the lock's finish.
Wipe the magnet and plate to remove dust.
Clean around the mounting area.
Remove any debris from the door frame.
If you see sticky residue, use a small amount of rubbing alcohol on a cloth. Dry the area right away. Never spray cleaners directly on the lock. Always apply them to the cloth first.
Note: Clean contact surfaces help the lock hold better. Dirty surfaces reduce magnetic strength.
Loose screws or brackets can cause your lock to fail. You should check all hardware during each inspection. Use a screwdriver to tighten any loose parts. Pay close attention to the screws on the magnet and armature plate.
Test the door for wobbling or shifting.
Tighten hinge screws if the door sags.
Make sure mounting brackets sit flush against the frame.
A table can help you track hardware checks:
Hardware Part | What to Check | Action Needed |
---|---|---|
Magnet screws | Tightness | Tighten if loose |
Plate screws | Alignment, tightness | Adjust as needed |
Hinges | Wear, looseness | Replace if damaged |
Tip: Do not over-tighten screws. Too much force can strip threads or crack the frame.
Regular inspection, cleaning, and hardware checks keep your magnetic door lock working well. You save time and money by preventing bigger problems.
You can handle most magnetic door lock maintenance tasks yourself. Sometimes, you face problems that need a professional's skills and tools. Knowing when to call a pro saves you time, money, and frustration. It also keeps your security system safe and reliable.
Watch for these warning signs:
The lock does not engage or release after you check power and alignment.
You see sparks, smell burning, or notice melted wires.
The lock makes loud, unusual noises even after you tighten all hardware.
The access control system fails, and you cannot reset it.
The door frame or hardware shows signs of serious damage.
You find repeated electrical issues, such as blown fuses or tripped breakers.
The lock gets hot to the touch, even after you fix wiring and voltage.
Tip: If you feel unsure about any repair, stop and call a licensed locksmith or electrician. Safety always comes first.
Common situations that require a professional:
Situation | Why You Need a Pro |
---|---|
Electrical short circuits | Prevents fire hazards and further damage |
Integration with fire alarm system | Ensures code compliance and safe egress |
Major door or frame repairs | Maintains structural integrity |
Upgrading access control systems | Guarantees proper setup and programming |
Replacing damaged maglocks | Avoids voiding the warranty |
You may also need a pro if your building has strict security codes or insurance requirements. Professionals know local laws and can certify the installation. They use special tools to test holding force, check wiring, and program access devices.
How to choose the right professional:
Look for licensed locksmiths or certified electricians.
Ask about experience with magnetic door locks.
Request references or reviews from past customers.
Confirm they follow local building and fire codes.
Get a written estimate before work begins.
You protect your property and people when you call a pro at the right time. You also avoid bigger problems and costly repairs later. If you ever feel stuck or unsafe, trust an expert to handle the job.
You now have a complete guide for installing and troubleshooting magnetic door locks. This guide helps you handle many applications, from offices to schools and hospitals. Careful preparation and regular checks keep your lock working in all applications. Use the troubleshooting guide for quick fixes in daily applications. If you face complex issues in any applications, call a professional. You can trust this guide for safe and reliable results in different applications.
You can test it by closing the door and trying to pull it open. The lock should hold firmly. You should also check the indicator light if your model has one. It shows when the lock is active.
You can install it on most doors. The door and frame must be strong and flat. Some hollow or glass doors may need special brackets. Always check the manufacturer's instructions for compatibility.
First, check the power supply. Then, test the access control device. Clean the contact surfaces. If it still does not release, inspect the wiring. You may need to reset the system.
Magnetic locks are fail-safe. They unlock when power is lost. This feature keeps you safe during emergencies. You should always plan for this when designing your security system.
You should clean it at least once a month. Use a dry, soft cloth. Remove dust and debris from the magnet and plate. Regular cleaning helps the lock work better and last longer.
Yes, you can connect it. Most systems allow the fire alarm to cut power to the lock. This setup lets people exit quickly during emergencies. Always follow local codes for safety.
You need a multimeter, screwdriver, and cleaning cloth. These tools help you check voltage, tighten screws, and clean surfaces. A simple toolkit keeps your lock working well.
Tip: Keep your toolkit handy. Quick checks prevent bigger problems.
Lock Type | Holding Force (lbs) |
---|---|
Standard Single | 600–1,200 |
Heavy Duty | 1,500–4,000 |
You can find the exact value in your lock's manual. Stronger locks provide more security.