Heating, ventilation and air conditioning (HVAC) units are described. In particular, HVAC units described herein are to embodiments and aspects of an adaptable base that allows an HVAC unit to align with multiple duct opening configurations. In particular, the adaptable base can align with multiple duct configurations, such as by aligning and sealing with return and supply duct(s), which may be employed for example in different roof curbs of rooftop HVAC units.
A HVAC system can include components such as a compressor or pump, one or more heat exchangers, and one or more fans to allow for return and supply air to appropriately move through the system. Some or more of these components can make up an HVAC unit, such as may be employed in a rooftop HVAC application. Such HVAC units are installed differently. For example, some light commercial HVAC rooftop units are installed on a roof curb which supports the unit on the roof, seals the perimeter of the unit, and provides a means to connect building ductwork to the unit base return and supply openings. The footprint and the design of such roof curbs can tend to be unique to a certain manufacturer or product.
Systems, apparatuses, and methods herein are to HVAC units directed to embodiments and aspects of an adaptable base of the HVAC unit, which can allow an HVAC unit to align with multiple duct opening configurations. Such opening configurations may be different footprints in different HVAC systems. In particular, the adaptable base can align with multiple duct configurations, such as by aligning and sealing with return and supply duct(s), which may be employed for example in different roof curbs of rooftop HVAC units.
Generally, the adaptable base has multiple openings to accommodate the return air and the supply air duct openings of multiple HVAC systems. Typically, the return air and supply air duct openings can dictate the layout or footprint, for example of a rooftop unit. A roof curb is often used as the basic footprint for the unit. Such roof curbs can be different depending on the HVAC product or its manufacturer.
In one embodiment, the adaptable base includes a base plate, a supply air duct opening, a return air duct opening, where there is at least one additional opening for one or both of the supply air opening and the return air duct opening. Each opening has a seal around its perimeter. A supply side/return side seal may be included on the base plate between the supply air duct opening(s) and the return air duct opening(s). A seal is also arranged and located on the base plate about a perimeter around the supply air duct opening(s) and the return air duct opening(s) and can be coordinated with the supply side/return side seal. In some embodiments, a cover can be connected to close one or more openings that are not being used with the unit, such as for example to accommodate a supply duct opening and return duct opening of a different HVAC footprint, e.g. its roof curb.
In one embodiment, there are multiple return openings that can fit multiple roof curbs and duct work. Cover panel(s) may be used to cover an unused opening(s).
In one embodiment, a method to install the adaptable base above can include adapting the base to cover and/or uncover certain supply air duct opening(s) and/or return air duct opening(s) so as to align and seal the openings with the HVAC unit to which the adaptable base is connected.
In general, the adaptable base is capable of accommodating multiple unique HVAC unit footprints and corresponding roof curbs without the use of additional adapters. In particular, the adaptable base allows a single HVAC unit to fit multiple roof curb designs without requiring an adapter curb, such as may be employed in certain rooftop HVAC units.
Other features and aspects of the embodiments will become apparent by consideration of the following detailed description and accompanying drawings.
A HVAC system can include components such as a compressor or pump, one or more heat exchangers, and one or more fans to allow for return and supply air to appropriately move through the system. Some or more of these components can make up an HVAC unit, such as may be employed in a rooftop HVAC application. Such HVAC units are installed differently. For example, some light commercial HVAC rooftop units are installed on a roof curb which supports the unit on the roof, seals the perimeter of the unit, and provides a means to connect building ductwork to the unit base return and supply openings. The footprint and the design of such roof curbs can tend to be unique to a certain manufacturer and/or product. Since manufacturers tend to have unique footprints and corresponding duct sizes and locations, a typical unit can only be replaced by another unit if it fits the existing roof curb. If it does not fit, a separate structure, such as an adapter curb must be added to align the new unit base openings to the old roof curb duct work. This can add cost, can increase the resulting installed height of the unit, and availability of such adapter curbs can be limited, which can affect downtimes and/or service times for a particular unit that may have a service need or replacement.
Systems, apparatuses, and methods herein are to HVAC units directed to embodiments and aspects of an adaptable base of the HVAC unit, which can allow an HVAC unit to align with multiple duct opening configurations. Such opening configurations may be different footprints in different HVAC systems. In particular, the adaptable base can align with multiple duct configurations, such as by aligning and sealing with return and supply duct(s), which may be employed for example in different roof curbs of rooftop HVAC units.
Generally, the adaptable base has multiple openings to accommodate the return air and the supply air duct openings of multiple HVAC systems. Typically, the return air and supply air duct openings can dictate the layout or footprint, for example of a rooftop unit. A roof curb is often used as the basic footprint for the unit. Such roof curbs can be different depending on the HVAC product or its manufacturer.
In some embodiments, a cover 20 is used to cover the appropriate opening that is not being used with the HVAC unit, for example when the HVAC unit is to connect to a roof curb, e.g. 50 that does not align with the opening. As shown, opening 18 is covered by cover 20 as it does not align with the roof curb 50. It will be appreciated, such as shown in
Generally, the base 10 is also configured to appropriately seal and align with the HVAC footprint to which the unit, e.g. 100, is installed, for example to a roof curb of the HVAC system. Thus, it will be appreciated that the openings, e.g. 14, 16, 18, or other openings that may be included, can be sized appropriately to obtain desired adaptability, along with their respective covers if used.
As shown in
The embodiments herein are designed to allow a base of an HVAC unit to have an interface to align and seal with multiple return and/or supply base openings which allow the unit to accommodate multiple roof curb designs. The base openings, whether on the supply side and/or the return side are sized and located such that the unit can fit roof curbs without allowing air bypass around the roof curb duct connections. The embodiments herein can allow a base of a single unit to be used with multiple footprints, e.g. and their corresponding roof curbs without the need for an adapter curb to align base openings to roof curb duct work.
With regard to the foregoing description, it is to be understood that changes may be made in detail, especially in matters of the construction materials employed and the shape, size and arrangement of the parts without departing from the scope of the present invention. It is intended that the specification and depicted embodiment to be considered exemplary only, with a true scope and spirit of the invention being indicated by the broad meaning of the claims.
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Number | Date | Country | |
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Parent | 14158294 | Jan 2014 | US |
Child | 15262210 | US |