HDB Casement Window restrictors – Compact Metal’s telescopic bar design
Compact Metal’s telescopic bar design for HDB window restrictors is a safety device that is installed on windows in HDB flats in Singapore. It is designed to limit the opening angle of windows, which can prevent accidents and improve safety for residents, particularly young children.
The telescopic bar design of the HDB window restrictor from Compact Metal provides a number of advantages over other types of window restrictors. Firstly, the telescopic design allows for the window restrictor to be adjusted to fit a variety of different window sizes and shapes, making it a versatile solution for HDB flats of different types and ages.
Secondly, the telescopic bar design allows for a larger opening angle than some other window restrictors. This can provide more ventilation and airflow while still maintaining a safe opening angle, which can be important for residents in hot and humid Singapore.
Additionally, Compact Metal’s telescopic bar design is made of durable and long-lasting materials, such as stainless steel, which can provide excellent resistance to corrosion and wear and tear. This can ensure that the window restrictor remains effective and reliable for a long period of time.
Moreover, the installation of Compact Metal’s telescopic bar design is compliant with the Building and Construction Authority’s (BCA) regulations, which require that all windows in HDB flats above the second storey and within reach of children must be fitted with appropriate safety devices such as window restrictors.
In summary, Compact Metal’s telescopic bar design for HDB window restrictors is a versatile and effective safety device that can prevent accidents and improve the safety of residents in HDB flats in Singapore. Its telescopic design allows it to be adjusted to fit a variety of window sizes and shapes, and its durable materials ensure long-lasting effectiveness. Its compliance with BCA regulations makes it an important component of building safety in Singapore.