FIGURE 7

COMMON WALL MOUNTING INSTALLATIONS

RAIN

 

RAIN

FLASHING

RAFTERS

FLASHING

 

 

 

FINISHED CEILING SURFACE

 

 

SUPPLY AIR DUCT

 

 

W/ GRILLE

 

 

RETURN AIR

 

 

OPENING W/ GRILLE

 

OUTSIDE

 

OUTSIDE

WALL

 

 

WALL

 

 

SUPPLY DUCT MAY BE LOCATED IN AN ATTIC OR BELOW CEILING RAFTERS AS SHOWN

RAFTERS

SUPPLY AIR DUCT

FINISHED CEILING SURFACE

RETURN AIR

OPENING W/ GRILLE

FREE AIR FLOW

DUCTED SUPPLY

NO DUCT

RETURN AT UNIT

SUPPLY DUCT MAYBE LOCATED IN AN ATTIC

OR BELOW CEILING RAFTERS AS SHOWN

RAIN

 

RAIN

FLASHING

 

 

FLASHING

 

RAFTERS

 

 

 

SUPPLY AIR DUCT

 

 

FINISHED

 

 

CEILING SURFACE

 

 

RETURN AIR

 

 

SPACE

 

 

WALL SLEEVE

 

 

FALSE WALL

 

OUTSIDE

RETURN AIR GRILLE

 

 

OUTSIDE

WALL

 

WALL

 

 

FALSE WALL INSTALLATION

SUPPLY DUCT MAYBE LOCATED IN AN ATTIC OR BELOW CEILING RAFTERS AS SHOWN

RAFTERS

SUPPLY AIR DUCT

LOWERED

CEILING SUPPLY AIR

GRILLE

 

FINISHED CEILING

CLOSET WALL

SURFACE

 

WALL

 

SLEEVE

 

RAISED FLOOR

RETURN AIR

RETURN AIR

GRILLE

 

CLOSET INSTALLATION

MIS-550 B

Manual

2100-508A

Page

13 of 25

Page 13
Image 13
Bard W42L, 1 W48A1, W70L1, W70A1 Free AIR Flow Ducted Supply No Duct Return AT Unit, Common Wall Mounting Installations

W70A1, W70L1, W42L, 1 W48A1 specifications

The Bard range of products, specifically the W24L1, W48L1, W42L1, W70A1, and W60A1 models, showcases advanced engineering aimed at providing efficient heating and cooling solutions. Each model comes with distinctive features and technologies tailored to meet various residential and commercial needs.

Starting with the W24L1 model, it is designed for compact spaces while delivering powerful performance. Its heating capacity is optimal for smaller areas, making it suitable for residential applications. The W24L1 incorporates advanced inverter technology, ensuring energy efficiency and reducing operational costs. This model is equipped with a user-friendly interface, enabling easy control and monitoring of settings.

Next is the W48L1, which offers increased capacity for larger spaces. This model is characterized by its robust build and enhanced airflow system that ensures uniform heating and cooling throughout the environment. The W48L1 utilizes environmentally friendly refrigerants, highlighting Bard’s commitment to sustainability. Its smart technology integration allows for seamless compatibility with smart home systems, providing added convenience for users.

The W42L1 model stands out for its versatility in both heating and cooling applications. It is engineered with high-efficiency components, which contribute to lower energy consumption. Features like programmable thermostats and variable speed fans enhance user comfort and adjust to varying demand. The W42L1 also comes with a durable construction, ensuring longevity and reliability even in challenging conditions.

For those demanding even higher performance, the W70A1 model caters to significant heating and cooling requirements. This unit is designed to tackle extreme weather conditions and is often favored for industrial applications. The W70A1 employs advanced heat exchanger technology, improving efficiency and reducing energy loss. Moreover, its rugged design enables operation in harsh environments without compromising performance.

Lastly, the W60A1 represents a harmonious blend of efficiency and power. It is particularly well-suited for mid-sized applications, combining the best features from the other models. The W60A1 integrates sophisticated microprocessor controls that optimize performance while ensuring compatibility with emerging smart technology platforms. Its energy-efficient design means lower operating costs while delivering impressive comfort levels.

In summary, Bard's W24L1, W48L1, W42L1, W70A1, and W60A1 models are engineered to deliver superior heating and cooling solutions across a variety of environments. With a focus on energy efficiency, advanced technologies, and user-friendly interfaces, these models exemplify Bard's commitment to innovation and sustainability in climate control systems.