The disclosure herein relates to a furnace that may be included, for example, in a heating, venting and air conditioning (HVAC) system.
A furnace, such as a furnace in a HVAC system, typically includes a burner system, a heat exchanger system and a blower system. An enclosure of the furnace may be partitioned into a plurality of compartments to housing the components of the furnace.
A furnace is disclosed. In some embodiments, the furnace may include an enclosure that includes a heat exchanger compartment that is vertically aligned with a blower compartment, and a combustion compartment that is positioned in a front section of the enclosure. In some embodiments, the heat exchanger compartment is positioned above the blower compartment in a vertical direction. In some embodiments, the combustion compartment may extend to about the same height as a height of the blower compartment and the heat exchanger compartment combined. In some embodiments, the enclosure may include a vertical support column formed by the vertically aligned heat exchanger compartment panel and blower compartment panel. The term “vertically aligned” generally refers to a situation that a side of one panel may be aligned with a side of another panel so that a straight line can be formed in the vertical orientation by the two sides of the panels. It is to be appreciated that the term “vertical” or “vertically” is relative to the orientations as shown in the drawings of this document. The embodiments as disclosed herein can be oriented differently in practice.
In some embodiments, the front section of a furnace may include a window assembly having an air vent covered by a viewing window panel, so that vent openings can be hidden by the viewing window panel. In some embodiments, the window assembly may include at least one tinted glass. In some embodiments, the window assembly may include a plurality of tinted glasses, each of which may provide a different view into the furnace.
In some embodiments, the furnace may include a rail to support a removable heat exchanger system.
In some embodiments, the furnace may include a wire retaining fin assembly to retain a wire. In some embodiments, the wire retaining fin assembly may include a first fin oppositely positioned from a second fin, where the first fin and second fin may have an offset space in between. In some embodiments, the first fin and the second fin can define a wire retaining space. The wire can be received in the offset space and then twisted into the wire retaining space.
In some embodiments, the furnace may include a heat exchanger header that includes a recessed region configured to retain a sealant.
Other features and aspects of the systems, methods, and control concepts will become apparent by consideration of the following detailed description and accompanying drawings.
Reference is now made to the drawings in which like reference numbers represent corresponding parts throughout.
A furnace, for example, of a HVAC system typically includes a burner system, a heat exchanger system and a blower system. These systems are housed in an enclosure. Embodiments disclosed herein are directed to features of the furnace.
References are made to the accompanying drawings that form a part hereof, and in which is shown by way of illustration of the embodiments may be practiced. It is to be understood that the terms used herein are for the purpose of describing the figures and embodiments and should not be regarded as limiting the scope.
In the illustrated embodiment, the heat exchanger compartment 221 is positioned on top of the blower compartment 222 in a vertical orientation V2. The heat exchanger compartment 221 and the blower compartment 222 are aligned vertically. The term “aligned vertically” or “vertically aligned” generally refers to a situation that a side of one panel may be aligned with a side of another panel so that in some cases a straight line can be formed in the vertical orientation (e.g. the vertical orientation V2) by the two sides of the panels. It is to be appreciated that a thickness of the panels of the compartments may differ and so vertically aligned is also meant to include such overlap in the thicknesses of the side panels or walls but where the panels and/or walls are on top of each other to form a column structure.
It is to be appreciated that the term “vertical” or “vertically” is relative to the orientations as shown in the drawings of this document. The embodiments of the enclosures as disclosed herein can be oriented differently in practice.
A first panel 231, which is horizontally positioned relative to the vertical orientation V2, separates the heat exchanger compartment 221 and the blower compartment 222 in the vertical orientation V2.
The heat exchanger compartment 221 has a heat exchanger compartment panel 232a, and the blower compartment 222 has a blower compartment panel 232b. The blower compartment panel 232b is positioned to be vertically aligned with the heat exchanger compartment panel 232a, creating a vertical supporting column 232. The vertical supporting column 232 can help increase a structural strength of the enclosure 210. In an embodiment, the panels 232a, 232b can be separate pieces connected together or configured as an integrated piece.
The combustion compartment 223 is separated from the heat exchanger compartment 221 and the blower compartment 222 by the heat exchanger compartment panel 232a and the blower compartment panel 232b respectively, and is positioned in a front section of the enclosure 210 relative to the heat exchanger compartment 221 and the blower compartment 222. Relative to the vertical direction, the combustion compartment 223, in the illustrated embodiments, occupies the entire vertical direction. A height of the combustion compartment 223 is about the same as a combined height of the heat exchanger compartment 221 and the blower compartment 222. Compared to a traditional design, the combustion compartment 223 may be relatively larger in size, which can help an installation process or a service process, and may be helpful in various applications. The position and/or size of the combustion compartment 223 can help arrange the wiring, gas line configuration and/or condensate hose configuration. The blower compartment 222 can also get air from all directions of the enclosure 210. The relatively large combustion compartment 223 can also help access the serviceable components, e.g. the burner system).
The vertical support column 232 helps increase a structural strength of the enclosure 210. In practice, the enclosure 210 may be used in the orientation as shown in
In an embodiment, the furnace has a viewing window so that, for example, a fire of a burner, can be seen through the viewing window. In an embodiment, the furnace may include an air vent to supply air to the burner.
Referring to
The air vent 310 includes a viewing window support 322 that is configured to support the viewing window panel 320. Relative to the viewing window support 322, the openings 312a, 312b are recessed. Referring to
Referring to
In the illustrated embodiments, the viewing window panel 320 includes two windows 324, which can provide different views into the furnace when installed. It is to be understood that a number, shapes and sizes of the windows 324 can be varied to meet design requirements.
In the illustrated embodiments, the window 324 is tinted so that the window 324 generally appears to have a dark color, but a flame of the burner or a LED display (e.g. a LED display showing error messages) inside the furnace can be viewed through the window 424. The tinted window 324 can hide internal components of a furnace, allowing a cleaner appearance and desirable aesthetic appearance.
It is to be appreciated that the tinted window 324 can be used separately from the air vent 310.
An enclosure (e.g. the enclosure 210 in
The rail 410, as illustrated in
Referring to
The rail 410, in some embodiments, may be made of various materials, such as for example sheet metal or plastic. In some embodiments, the rail 410 can be designed to attach to a panel of an enclosure. In some embodiments, the rail 410 can be integrated into, for example, a panel of an enclosure. In some embodiments, the heat exchanger support 422 may be an attached part to the heat exchanger 430 that can slide on the support portion 412 of the rails 410.
Referring to
Referring to
Referring to
When the wire 590 is installed to the blower, the wire 590 can be firstly positioned in the offset space 520 between the first and second fins 510a, 510b. The wire 590 can then be twisted about, for example, 90 degrees so that the wire 590 is retained in the wire retaining space 513. Installation of the wire 590 to the wire retaining fin assembly 590 is relatively easy, and the wire 590 can be held in place securely.
The first and second fins 510a, 510b can be molded into the housing of the blower system 500, eliminating the need to use wire ties, clips, or clamps to secure the wire 590. It is to be understood that the wire retaining fin assembly 510 as disclosed herein can also be used with other component(s) of the furnace.
It is to be appreciated that a profile of a first fin 510a and a second fin 510b may be configured so that a material (e.g. fiberglass) may flow into a region(s) corresponding to the first and second fins 510a, 510b in the mold.
It is to be appreciated that by positioning and orienting the wire retaining fin assembly 510, the wire can be directed into a desired direction.
Referring to
As illustrated in
It is to be appreciated that a recessed region can also be positioned on the cover, or both the cover and the base may have the recessed regions.
It is to be appreciated that the features disclosed herein may be combined or modified as needed to, for example, meet design requirements.
Aspect 1: An enclosure of a furnace, comprising:
a heat exchanger compartment;
a blower compartment; and
a combustion compartment; wherein the combustion compartment is separated from the heat exchanger compartment by a panel of the heat exchanger compartment, the combustion compartment is separated from the blower compartment by a panel of the blower compartment form a vertical support column within the enclosure, and
the panel of the heat exchanger compartment and the panel of the blower compartment are aligned to form a vertical support column within the enclosure.
Aspect 2: The enclosure of aspect 1, wherein a height of the combustion compartment is the same as a combined height of the combustion compartment and the blower compartment.
With regard to the foregoing description, it is to be understood that changes may be made in detail, without departing from the scope of the present invention. It is intended that the specification and depicted embodiments are 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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20180259221 A1 | Sep 2018 | US |
Number | Date | Country | |
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62076632 | Nov 2014 | US |
Number | Date | Country | |
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Parent | 14936316 | Nov 2015 | US |
Child | 15974946 | US |