1. Field of the Invention
The present invention pertains to an air distribution blower housing that has an adjustable restriction in the interior of the blower housing. The adjustable restriction has the configuration of a rectangular plate. One edge of the plate is connected by a pivoting connection to a wall of the blower housing in the air flow path from the blower housing. The plate can be pivoted about the pivot connection through a plurality of adjusted angular positions of the plate in the air flow path. In each adjusted position of the plate, the length of the plate extends from the pivot connection in the air flow direction. A sliding connection is provided between the plate and at least one side wall of the blower housing. The sliding connection selectively holds the plate in its adjusted angular position and also provides a visual indication on the exterior of the blower housing of the adjusted angular position of the plate inside the blower housing.
2. Description of the Related Art
Air condition systems are currently designed with an adjustable capacity. This adjustable capacity enables manufacturers of the systems, distributors of the systems, or contractors that install the systems to meet the different requirements of a relatively wide range of HVAC installations used in a relatively wide range of building constructions. These conditioning systems can be operated in a wide range of cooling capacities by employing a cooling module having a condensing unit of the required capacity for the particular building construction, and by adjusting the volume rate of air flow through the system.
A typical air conditioning system that employs the prior art restrictor plate to adjusts the air flow distribution from the system is disclosed in the U.S. Patent of Dieckmann et al. U.S. Pat. No. 5,277,036, the disclosure of which is incorporated herein by reference. An air conditioning system of this type typically includes a heating module, a cooling coil or module, and a blower.
The cooling module, the heating module, and the blower are typically assembled so that operation of the blower draws an air flow through the system. The drawn air flow direction is through the heating module, then through the cooling module, and then through the blower. This sequence of the air flow direction is desirable because if the cooling coil of the cooling module produces an air flow at below freezing temperature, then the heating coil of the heating module will not freeze and potentially burst.
The heating coil assembly functions as a heat exchanger that heats the air drawn through the coils by operation of the blower. The coils of the assembly typically communicate with a source of hot water and channel the hot water through the coils. The hot water heats the air drawn through the heating coil assembly by the operation of the blower.
The air flow volume of the air drawn through the system by operation of the blower is typically adjusted according to the cooling capacity of the condensing unit of the cooling coil of the system. The air flow volume rate is adjusted to achieve a constant air flow volume rate per unit of cooling capacity, for example, 200 cubic feet per minute (CFM) per ton.
In the prior art, a variable restrictor plate has been employed to fine tune the air flow to reduce the noise from the register if the total air flow is more than the minimum required. If noise is not an issue, then having more air flow than the minimum is better. Thus, most of the time the restrictor plate will be in the fully opened position. The prior art adjustable restrictor plate is slidably mounted across a discharge opening of a duct or a discharge opening of a blower housing. The plate is positioned substantially perpendicular to the direction of air flow. Movement of the plate across the discharge opening varies the area of the opening according to the air flow volume rate required for the cooling capacity desired of the system. These prior art adjustable restrictor plates have been seen to be disadvantaged in that the adjustable positioning of the plate across the discharge opening disrupts a smooth flow of air through the discharge opening. This disruption in the smooth flow of air through the discharge opening has been observed to negatively affect the efficiency of the air conditioning system blower. In addition, the adjustable positioning of the restrictor plate across the air discharge opening has the negative effect of generating noise due to the air flow around the restrictor plate.
The present invention provides an air distribution adjustable restriction that improves blower efficiency at lower air volumes of discharge from a blower housing and is quieter than prior art adjustable restrictor plates.
The air distribution adjustable restriction of the present invention could be employed in a duct that conducts air flow in an air flow direction through the duct. However, in the preferred embodiment of the invention the air distribution adjustable restriction is basically comprised of a restrictor plate in a blower housing, and in particular a centrifugal (squirrel cage) blower housing having a volute-shaped outer wall and a rectangular air flow outlet opening.
The restrictor plate is attached to a bottom wall of the blower housing adjacent the air flow outlet opening of the blower housing. In the preferred embodiment the restrictor plate is rectangular and has a bottom edge, an opposite top edge, and opposite first and second side edges.
A pivot connection attaches the bottom edge of the restrictor plate to the blower housing bottom wall. The pivot connection enables the restrictor plate to be adjustably positioned in a plurality of adjusted angular positions of the plate relative to the bottom wall. In each of the adjusted angular positions, the length of the restrictor plate extending from the bottom edge to the top edge of the plate is oriented in the air flow direction.
A sliding connection is provided between at least one of the two side edges of the restrictor plate and an adjacent side wall of the blower housing. The sliding connection can selectively hold the restrictor plate in an adjusted angular position of the plate relative to the bottom wall of the blower housing. The sliding connection also provides a visual indication of the adjusted angular position of the restrictor plate in the interior of the blower housing from an exterior environment of the blower housing.
The air distribution adjustable restriction of the invention overcomes disadvantages associated with prior art restrictor plates by employing a restrictor plate that can only be adjusted to an angular position in which a length of the restrictor plate extends in the air flow direction for all adjusted positions of the restrictor plate. This provides a smooth air path across the restrictor plate in all of the adjusted positions of the restrictor plate. The air flow across the restrictor plate is smoother and quieter than that of prior art restrictor plates. In addition the air distribution adjustable restriction of the invention creates a back pressure upstream of the restrictor plate without creating a disruption in the air flow that reduces the efficiency of the blower used with the restrictor plate. In addition, the restrictor plate is an integral part of the blower housing, and therefore can be easily added to an air distribution system.
The air distribution blower housing with an adjustable restriction 12 comprises a blower housing construction having features commonly found in prior art blower housing constructions. Referring to
A motor 32 mounted on a supporting frame 34 is secured to the first side wall 14 of the blower housing. A shaft (not shown) of the motor 32 extends into the blower housing interior 36 defined between the two side walls 14,16. A fan 38, preferably a fan wheel or impeller type fan is mounted on the motor shaft in the housing interior 36.
The blower housing also has a volute or scroll shaped outer wall 42 that extends around the blower housing and is connected between the first side wall 14 and the second side wall 16. As viewed in
The construction of the air distribution blower housing 12 described above is, for the most part, conventional. The novel features of the invention include a restrictor plate 62 that is assembled to the blower housing 12 in the blower housing interior 36, and the adjustable connection of the restrictor plate 62 to the blower housing 12.
The restrictor plate 62 is basically a rectangular shaped plate having opposite top 64 and bottom 66 edges, and opposite first 68 and second 72 side edges. The plate top edge 64 and bottom edge 66 are substantially straight and parallel edges, except for a pair of plate bottom tabs 74 that project from the plate bottom edge 66. The plate bottom tabs 74 are received in a pair of slots 76 provided through the blower housing outer wall 42. The engagement of the tabs 74 in the blower housing slots 76 provide a pivoting connection of the plate 62 to the blower housing. With the tabs 74 engaged in the slots 76, the restrictor plate 72 can pivot through a plurality of adjustable angular positions in the interior of the blower housing 28 adjacent the air flow outlet opening 28. The slots 76 are positioned sufficiently back from the air flow outlet opening 28 to prevent the plate 62 from extending through the air flow outlet opening 28 when the plate is adjustably positioned against the bottom wall portion 46 of the housing outer wall 42 as shown in
The restrictor plate first 68 and second 72 side edges are substantially straight, parallel edges except for a pair of side tabs 78, 82 that project from the side edges. The width dimension of the restrictor plate 62 is such that the side edges 68, 72 are positioned in close proximity to the respective side walls 14,16 of the blower housing. The side tabs 78, 82 are bent from the side edges 68, 72 to project into the interior volume of the blower housing. Each of the side tabs 78, 82 has a hole that receives a threaded post or shank of a respective threaded fastener 84, 86.
A pair of curved slots 88, 92 are provided through the respective first 14 and second 16 side walls of the blower housing adjacent the respective side edges 68, 72 of the restrictor plate 62. The curved slots 88, 92 receive the threaded fasteners 84, 86 that are threaded into the holes in the respective side tabs 78, 82. Thus, as the restrictor plate is pivoted in the blower housing interior 36 through a plurality of adjusted angular positions of the restrictor plate 62 relative to the housing bottom wall portion 46, the pair of fasteners 84, 86 slide through the curved slots 88, 92. The positions of the fasteners 84, 86 in the curved slots 88, 92 gives a visual indication from the exterior of the blower housing 12 of the adjusted angular position of the restrictor plates 62 in the blower housing interior 36. With the restrictor plate 62 positioned at a desired angle, the threaded fasteners 84, 86 can be screwed down to engage against the respective side walls 14, 16 of the blower housing to securely hold the restrictor plate 62 in its adjusted angular position.
Thus, the air distribution blower housing with the adjustable restrictor plate adjusts the air flow volume rate through the air flow outlet opening 28. The configuration of the curved slots 88, 92 ensures that in the adjusted angular position of the restrictor plate 62, the orientation of the restrictor plate 62 from the plate bottom edge 66 to the plate top edge 64 is always in the air flow direction through the air flow outlet opening 28. With this orientation of the restrictor plate 62 the plate does not disrupt the smooth flow of air through the air flow outlet opening 28, and therefore does not negatively affect the efficiency of the air distribution blower. In addition, the adjustable positioning of the restrictor plate with the plate oriented in the air flow direction does not generate the same noise as the prior art restrictors where the air flow is around the restrictor plate.
Although the air distribution blower housing of the invention has been described above by referring to a specific embodiment, other variations and modifications could be made to the described embodiment without departing from the intended scope of the following claims.
Number | Name | Date | Kind |
---|---|---|---|
2640410 | Raider et al. | Jun 1953 | A |
RE24421 | Patrick | Jan 1958 | E |
3628441 | Ardussi et al. | Dec 1971 | A |
3662557 | Morgan | May 1972 | A |
4479921 | Allaire et al. | Oct 1984 | A |
4934335 | Marlatt | Jun 1990 | A |
4977750 | Metcalfe | Dec 1990 | A |
5186237 | Adasek et al. | Feb 1993 | A |
5277036 | Dieckmann et al. | Jan 1994 | A |
5792230 | Moore et al. | Aug 1998 | A |
6890149 | Metz et al. | May 2005 | B2 |
6899516 | Wang | May 2005 | B2 |
6979169 | Penlesky et al. | Dec 2005 | B2 |
20010014284 | McCabe | Aug 2001 | A1 |
20030084896 | Gierula et al. | May 2003 | A1 |
20050087614 | Ruise | Apr 2005 | A1 |
20060000110 | Aisenberg et al. | Jan 2006 | A1 |
Number | Date | Country | |
---|---|---|---|
20090274551 A1 | Nov 2009 | US |