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AS 1248 Power lock Solenoid DC 12 V 1.jpg
AS 1248 Power lock Solenoid DC 12 V 1.jpg
AS 1248 Power lock Solenoid DC 12 V 2.jpg
AS 1248 Power lock Solenoid DC 12 V 3.jpg
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AS 1248 Power Solenoid lock DC 12V for smart solenoid lock System

 What is a Power Solenoid lock?

A Power solenoid lock includes a long piece of copper wire that is wound in the housing. When the electric current goes through the solenoid copper coil, it creates a relatively uniform magnetic field inside the solenoid coil. The magnet force will release the plunger tongue to move in linear movement to unlock the door. When the current is off, the plunger tongue will be drawn back to the original position by the built in spring.

Features:

Latch mechanism  

Rated voltage: DC 12 V ±5%

Power consumption: 9.5W

Power current:  396mA

Duty cycle: 10% (continuous rating)

Power-turning-ON-and-unlocking solenoid electric lock (unlocked when energized)

Latch retraction force (horizontal):  3.94N

Latch extension force (horizontal): 4.32N

Emergency unlocking device:  

Verification switch rated (resistance load): AC125V, 1A/DC30V, 0.5A

Ambient temperature: -5°C to +40°C (non-condensing)

Operating humidity range: 85%RH or less (non-dewing)

12V power solenoid lock has a slug with a slanted cut and a good mounting bracket. It’s basically an electronic lock, designed for a basic cabinet, safe or door. When 12V DC is applied, the slug pulls in so it doesn’t stick out and the door can be opened. It does not use any power in this state. It is very easy to install for automatic door lock systems like electric door lock with the mounting board. This solenoid, in particular, is nice and strong.

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    product details

    Product Description

    Brand Dr. Solenoid Model Number AS 1248
    Rated Voltage (V) DC 12 V  Rated Power(W) 13--20 W 
    Work Model Push Type Holding Force (N)  200 ---800 GF
    Stroke(mm) Customized Reset Time(s) 20 S
    Service Life 300 Thousand Times Certification CE,ROHS,ISO9001,
    Material Carbon Steel Housing with Zinc Coating Lead Wire Length(mm) 200
    Install Style Mounnted Screw Holes Tolerance of Dimension  +/-  0.1 MM 
    Water-proof  None Insulation Class F 155 Degree 9 Cel. )
    Hi-Pot Test AC 600V 50/60Hz 1 s Non-excitation Holding Force 0
    Working Temperature -10°C-100°C Duty Cycle 15 %
    Thread Depth(mm) / Payment Term TT, or LC At Sight  
    Sample Order Yes Warranty 1 Year
    MOQ 500 pcs Supply Ability 5000 pcs per Week
    Delivery Time 30 Days Port of Loading shenzhen

    Product detail diagram

    AS 1248 Power electromagnetic door lock D 1AS 1248 Power electromagnetic door lock D 2AS 1248 Power electromagnetic door lock D 3AS 1248 Power electromagnetic door lock D 4AS 1248 Power electromagnetic door lock D 5AS 1248 Power electromagnetic door lock D 6

    A Comprehensive Gide over Solenoid Lock System 

    A Solenoid Lock system is an electromechanical device that uses an electric current to control the locking mechanism. It is commonly used in applications, such as doors, cabinets, safes, and security systems. The Solenoid Lock operates by energizing a Solenoid coil to generate a magnetic field, which, in turn, activates the locking mechanism. Components of a Solenoid Lock System: Solenoid: The core component of the system, a solenoid is an electromagnetic coil that generates a magnetic field when an electric current passes through it. Locking Mechanism: This can be a latch, bolt, or other locking mechanism that engages or disengages when the solenoid is activated or deactivated. Power Supply: An electrical power source is required to energize the solenoid. It can be a battery or a main power supply.

    B  Control Circuit :  A control circuit, often injtegreated with other access control components, regulates the current flow to the solenoid, managing when the lock is engaged or released. Access Control Mechanism: This can be a keypad, card reader, fingerprint scanner, or any other device used to provide input for controlling the solenoid lock system. Working Principle When an electric current flows through the solenoid coil, it creates a magnetic field around the coil. This magnetic field attracts the locking mechanism (such as a metal bolt), causing it to move or rotate and engage with the door frame or strike plate, thus locking the door. When the current is cut off, the magnetic field disappears, and the locking mechanism is released, allowing the door to be opened. Installation Process Installing this system requires careful consideration and expertise. Here are the General Steps Involved: Choose the appropriate Solenoid Lock: Select a Solenoid Lock that fits your application and security requirements. Prepare the Door: Modify the door frame and structure to accommodate the locking mechanism and solenoid.

    C Mount the Solenoid :  Attach the solenoid to the door frame or the door itself, depending on the design. Install the Locking Mechanism: Attach the locking mechanism (bolt, Electronic Rotary Latch, etch.) to the door or door frame, ensuring it aligns with the solenoid.

    Wiring: Connect the solenoid to the control circuit and power supply. Configure Access Control:Set up the solenoid based on the user’s input. Considerations for Implementation: Security:  Ensure system meets the required security standards for your application. Consider additional features like tamper resistance, encryption, and anti-tampering mechanisms.

    Power Backup: Include a power backup solution to ensure the system remains functional during power outages. Accessible: Implement fail-safe or fail-secure mechanisms based on your specific requirements and safety considerations.

    Maintenance: Regularly inspect and maintain it to prevent malfunctions and ensure reliable operation. 

    Advantages of Solenoid Lock Systems:

    Fast and Reliable: It can operate quickly, making them suitable for high-security applications. Remote Control: They can be easily integrated into electronic access control systems, allowing for remote operation.

     D  Durable ; There are generally robush and have a long lifespan 

    Fail-Safe Options: It can be designed as fail-safe or fail-secure, depending on the application’s needs.