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AS 0537 mini electric door lock 12v dc solenoid

What is an Electromagnetic Solenoid Lock?,

An electromagnetic solenoid lock is a high-security locking device that operates using electromagnetic force. This innovative technology allows for efficient and reliable control of doors in various applications. There are three primary types of electromagnetic solenoid locks, each designed to meet specific security needs:,

A:Power-On Unlocking Type: This type of lock remains secure until the electromagnetic coil is energized. When power is cut or the connection is interrupted, the lock engages, making it ideal for environments where crime prevention is a priority,

B:Power-On Locking Type: This lock engages while the electromagnetic coil is continuously powered and unlocks only when the power is turned off. This feature is essential for emergency exits, ensuring that safety and evacuation are prioritized in case of fire or other emergencies,

C: Power-On Holding Type: This versatile lock can both lock and unlock by applying a pulse voltage in either direction to the electromagnetic coil. It is designed to maintain its locked or unlocked state without continuous power, making it a highly energy-efficient option,

Performance Characteristics： Understanding the performance characteristics of the continuous locking type versus the intermittent rated type of locks is essential for selecting the right solution, -

Continuous Locking Type: These locks are designed to withstand continuous voltage application without exceeding designated temperature limits, ensuring durability and reliability over time, -

Intermittent Rated Type: These locks can maintain safe temperature levels when the rated voltage is applied for short durations, making them suitable for systems with varying power cycles,

Structure of Electromagnetic Door Locks ： Electromagnetic door locks consist of two primary components: the electromagnet and the armature plate. The electromagnet is typically installed on the door frame, while the armature plate is mounted on the door itself. When the electromagnet is energized, it creates a magnetic field that attracts the armature plate, effectively locking the door,

Working Principle： The operation of electromagnetic door locks is based on the interaction between electricity and magnetism. When electric current flows through the electromagnet, it generates a magnetic field that attracts the armature plate, securing the door in position. This mechanism is widely employed in access control systems and can be found in various settings, including office buildings, public facilities, and warehouses,

Applications and Benefits ： Electromagnetic solenoid locks offer enhanced security, ease of use, and energy efficiency. Their ability to integrate into access control systems makes them a preferred choice for both residential and commercial properties, allowing for seamless management of entry and exit points. Whether you are improving security measures for a business or upgrading your home, electromagnetic solenoid locks provide reliable protection and convenience, For more information on selecting the right electromagnetic solenoid lock for your needs, contact us today!

product details

Product Description

Brand	Dr. Solenoid	Model Number	AS 0537
Rated Voltage (V)	DC12V or 24V	Rated Power(W)	4-8W
Work Mode	Push and Pull	Holding Force (N)	0.1--1.5 N
Stroke(mm)	3-6 MM Customized	Reset Time(s)	1 S On，3 S OFF
Service Life	200 Thousand Times	Certification	CE,ROHS,ISO9001,
Material	Superior Magnet Iron	Lead Wire Length(mm)	200 MM
Install Style	Screw	Tolerance of Dimension	+/- 0.1 MM
Water-proof	None	Insulation Class	B
Hi-Pot Test	AC 600V 50/60Hz 2s	Non-excitation Holding Force	0
Working Temperature	-10°C-100°C	Duty Cycle	1-100%
Thread Depth(mm)	/	Payment Term	TT, or LC At Sight
Sample Order	Yes	Warranty	1 Year
MOQ	1000 pcs	Supply Ability	5000 pcs per Week
Delivery Time	30 Days	Port of Loading	shenzhen

Product detail diagram

The role of electromagnetic solenoid door lock :
The strength of the magnetic field generated by electromagnets is proportional to the strength of the current flowing through the coil. The magnetic field created by the flow of current attracts the armature plate, which creates a locked state.

The role of the armature plate: The armature plate is an iron plate that reacts to magnetism and is fixed to the electromagnet. When the electromagnet is magnetized, its magnetic force strongly attracts the armature plate, keeping the door closed.

In this way, the electromagnetic door lock works by the interaction between the electromagnet and the armature plate, and is unlocked by turning off the power. By turning the current on and off, the opening and closing of the door can be controlled very quickly and reliably, which makes them very useful in places where security is required.

Different types of electromagnetic door locks, their specific uses, and maintenance and troubleshooting.

Types of electromagnetic door locks and their uses

There are many types of electromagnetic door locks, and the type is selected according to the environment in which it is used and the level of security required. For example, there are "constant electromagnetic locks" that provide constant magnetic force, "fail-safe" locks that can only be unlocked when the power is off, and "fail-safe" locks that lock when the power is off. In addition, there are models that allow you to choose the strength of the magnetic force, which makes them ideal for people who need more security.

Examples of use include entrance and exit management of corporate office buildings, secure areas of financial institutions, hospital drug storage rooms, and school classrooms and laboratories, as well as other places where a large number of people come and go or require security protection. By combining it with an access control system, access can be restricted to designated personnel only.

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Maintenance and troubleshooting

Although the maintenance cost of electromagnetic door locks is relatively low, regular inspections are still required. Reasons why door locks do not work properly include dirty surfaces of the electromagnet or armature plate, loss of magnetic force, or wiring problems. If the cause is dirt, it can usually be solved by wiping the surface, but if the cause is aging of parts or electrical failure, it may require repair by a professional technician.

When troubleshooting, check whether the door lock has insufficient magnetic force, whether there is a problem with the power supply, or whether the line is broken or has poor contact. In addition, since electromagnetic door locks require electricity, it is important to have a backup power supply in the event of a power outage. In order to cope with such emergencies, the backup system must also be checked regularly.

The future of electromagnetic door locks

As technology advances, the security features of electromagnetic door locks are expected to become more advanced and easier to use. For example, systems that work with smartphones and automatically unlock phones based on the user's location information, as well as security systems that combine facial recognition technology, are currently being developed. In addition, there is a great demand for energy-saving electromagnetic locks, which are likely to evolve into environmentally friendly