Simplex® LP1000 / 2015 Series

Exit Device Operator

Application

Model LP1000 and 2015 Exit Device Controls are designed to operate surface mounted (rim-mounted) exit devices (not supplied) from the outside using a tailpiece, which replaces the key cylinder on new or existing devices. Any standard pull can be mounted with Model 2015. They provide exterior access by combination, while allowing free egress at all times by interior exit device. The locks can be used with many leading brands of surface- mounted (rim-mounted) exit devices.

• LP1000 cannot be used with mortise design and most vertical rod exit devices.

• 2015 cannot be used with surface mounted exit devices with counterclockwise rotating hubs, or with thumb-operated, mortise design, or most vertical rod exit devices.

LP1000 Series

Optional Features

Model LP1000 offers an optional Key override feature. An authorized user can override

 

the lock combination and gain access using a key. This feature allows emergency

 

access to facilities, and it allows them to initiate or maintain a master-keyed security

 

system (keyed alike or keyed differently). The lock accepts removable core cylinders

 

(not supplied).

2015 Series

Simplex®

Access Control Catalog - June 2004

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Page 25
Image 25
Assa Mechanical Pushbutton Locks manual Simplex LP1000 / 2015 Series, Exit Device Operator, LP1000 Series

Mechanical Pushbutton Locks specifications

Assa Mechanical Pushbutton Locks are a revolutionary step in the field of security access solutions, combining traditional mechanical design with modern functionality. Renowned for their durability and reliability, these locks are ideal for a wide range of applications, from commercial buildings to residential properties. Their robust construction and intuitive design make them a preferred choice among security professionals and end-users alike.

One of the defining features of Assa Mechanical Pushbutton Locks is their keyed and keyless entry system. This dual functionality allows users to access secured spaces without the hassle of carrying keys, while still providing the option of traditional key access for backup. The pushbutton mechanism is user-friendly, enabling quick entry by simply pressing the appropriate code digits. This design promotes efficiency and accessibility, particularly in high-traffic areas.

The technology behind these locks showcases advanced engineering. The mechanical pushbutton system operates using a patented locking mechanism that ensures a high level of security. Each lock is designed to be resistant to picking, bumping, and drilling, which are common tactics used by intruders. Additionally, the weather-resistant materials and finishes are engineered to withstand various environmental factors, ensuring longevity and reliability, even in harsh conditions.

Assa Mechanical Pushbutton Locks are available with customizable access codes, allowing organizations to easily manage user permissions without the need for changing physical keys. This feature is particularly advantageous for businesses that require frequent staff changes or short-term access for contractors. Codes can be programmed and reprogrammed with relative ease, enhancing security while streamlining access control.

Another noteworthy characteristic of these locks is their low maintenance requirement. Unlike electronic locking systems, mechanical pushbutton locks do not rely on batteries or electrical components, significantly reducing the risk of malfunction. Their simple mechanical design typically necessitates little more than regular routine maintenance such as cleaning and lubrication to ensure optimal performance.

Overall, Assa Mechanical Pushbutton Locks present a unique blend of security and convenience. Their robust mechanical design, user-friendly access method, and customizable security options make them a superior choice for users seeking reliable access control solutions that do not compromise on safety or efficiency. Whether in a busy corporate environment or a family home, these locks offer peace of mind and effective security management.