BRPI0622214A2 - Air conditioning unit and Method of mixing air in one air conditioning unit - Google Patents

Abstract

AIR CONDITIONING UNIT AND METHOD OF MIXING AIR IN AN AIR CONDITIONING UNIT. An air conditioning unit is provided that includes a wall separating first and second sides. The wall includes an opening providing communication between the first and second sides. The first side is exposed to the external environment, and the second side is exposed to recirculated conditioned room air, in one example. A control lever includes a portion cooperating with the opening in response to angular movement of the control lever to variably obstruct the opening and selectively discharge stagnant air to the external environment. First and second location characteristics are provided respectively by the control lever and the wall. The first and second location features co-operate with each other to locate the control lever relative to the opening during angular movement to provide precise alignment and desired feel. The portion seals against the wall to block the opening in a closed position. The portion is spaced from the wall to allow stagnant air to flow from the second side to the first side in an open position.

Description

"AIR CONDITIONING UNIT AND METHOD OF MIXING AIR IN AN AIR CONDITIONING UNIT" BACKGROUND OF THE INVENTION

This application relates to an air conditioning unit, for example, used in window mounted room air conditioning applications. More particularly, the application relates to a control lever used to discharge air into the outdoor (or outdoor) environment. Fresh air replaces the exhaust air with openings in the indoor environment, for example window or door ranges.

Some air conditioning units, for example window mounted units used for room air conditioning, typically employ a manually operated joystick. The joystick selectively discharges air to the outdoor environment. The control lever is moved between open and closed positions to variably obstruct an opening that fluidly communicates indoor air to the external environment.

Two control lever movements were used to variably obstruct the opening. In one example, the control lever is manipulated angularly using a rod extending from a front grille exposed to the room. The control lever is supported by a pivot on the outlet nozzle. A portion at the end of the control lever seals against the opening in the closed position to prevent air flow to the external environment. The joystick is angled to an open position to discharge air indoors to the outside. One problem is that component tolerance build-ups, including the joystick, may result in misalignment of the aperture portion so that it does not seal in the closed position. In addition, the joystick may have an undesirable inaccurate feel.

Another approach uses a joystick that can be actuated in a longitudinal direction. The end of the control lever moves telescopically in and out of the aperture, which provides alignment of the control lever relative to the aperture. However, the longitudinal actuation of the control lever may be undesirable as it does not provide an intuitive or visually clear indication of the position of the control lever.

What is needed is a joystick that discharges indoors air while providing precise alignment and intuitive operation.

SUMMARY OF THE INVENTION

An air conditioning unit is provided which includes a wall separating first and second sides. The wall includes an opening providing communication between the first and second sides. The first side is exposed to the external environment, and the second side is exposed to recirculated room air conditioning, in one example. A control lever includes a portion cooperating with the aperture in response to angular movement of the control lever to variably obstruct the aperture and selectively discharge indoor air.

First and second location characteristics are provided by the control lever and wall respectively. The first and second locating characteristics co-act to locate the aperture control lever during angular movement to provide precise alignment and desired tact. The portion seals against the wall to block the opening in a closed position. The portion is spaced from the wall to allow fresh air to flow from the first side to the second side in an open position.

These and other features of the present invention may be better understood from the following specification and drawings, the following of which is a brief description.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an exploded perspective view of an example air conditioning unit.

Figure 2 is a top cross-sectional view of the air conditioning unit shown in Figure 1 when assembled.

Figure 3 is a front perspective view of a portion of a front grille with an example control lever.

Figure 4 is a rear perspective view of the control lever.

Figure 5 is an enlarged perspective view of the joystick in an open position.

Figure 6 is a rear perspective view of the control lever shown in Figure 5 in the open position.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT

An air conditioning unit 10 is shown in Figure 1. Unit 10 has a housing including a base container 12 and a housing assembly 14. Base container 12 supports a compressor 16 which pumps refrigerant to a condenser 18. An expansion device (not shown) is arranged as known, for example, upstream of condenser 18. Expanded refrigerant flows into an evaporator 20 before returning to compressor 16. A motor 24 draws air through evaporator 20 using an insufflator 26 to provide air cooled by a front grille 22 which is exposed to an interior room for example. Insufflator 26 recirculates room air through a partition 28 to further cool recirculated air.

Evaporator refrigerant 20 is exposed to the external environment in one example. A fan 30 is driven by motor 24 to blow air through condenser 18 to reject heat from the refrigerant to the outside environment. A capacitor or cover hole 32 provides a seal between capacitor 18 and fan 30. In one example, the entire housing includes a top cover 34 arranged between cover 32 and capacitor 18 to provide a housing over fan 30. One controller 36 communicates with compressor 16 and motor 24 in a known manner to provide desired air conditioning for the room.

Referring to Figure 2, partition 28 includes a wall 38 separating first and second sides 40, 42. First side 40 is in communication with the external environment. The second side 42 is in communication with room air R, which is recirculated room air conditioning. Continuously recirculating room air can result in stagnant air, in which case it is desirable to introduce fresh air. The stagnant air E is discharged through an opening 50 (Figure 5) into the wall 38, and fresh air is introduced through the indoor room openings as window and door ranges.

Partition 28 provides a room tube 46 receiving recirculated room air conditioned R through inlet louvers 21. Wall 38 separates room tube 46 on the second side 42 from an outdoor tube 44 on the first side 40 , which may be provided by a space located within the shell assembly 14.

Wall 38 includes an opening 50 variably obstructed by a control lever 52 which is manually operated from the room using a rod 66, best shown in Figures 3 and 4. Referring to Figures 3-6, control lever 52 includes a portion 54 cooperating with aperture 50 in response to angular movement of control lever 52. First and second locating characteristics 56, 60 co-act to locate control lever 52 relative to wall 38 during angular movement. In this manner, the control lever 52 is located horizontally and vertically to provide precise movement of the control lever 52, which enables the control lever 52 to completely seal against the wall 38 when in the closed position (Figure 3). In the example shown, the first locating feature 56 is provided by a protrusion, and the second locating feature 60 is provided by aperture 50 such that the protrusion 56 is received within aperture 50 along angular movement. A housing portion 64 (Figure 2) provided by outlet nozzle 22 (Figure 3) in the example includes a pivot 62 about which a lever arm 52 rotates. The rod 66 extends through the front grille 22 and out of the exit louvers 23 at the bottom in the example.

Referring to Figures 5 and 6, portion 54 includes a surface 74 that is spaced from wall 38 to provide an opening 76 when in the open position. Stagnant air E flows through opening 76 when the control lever 52 is open. Additionally, openings 70 may be provided in a first wall 68 of the protrusion 56 to provide additional air flow through the portion 54.

A second wall 72 of protrusion 56 is shown spaced from a portion of a perimeter of aperture 50 when in the open position. Second wall 72 contacts the perimeter of aperture 50 when in the closed position. First wall 68 contacts an opposite end of the perimeter when in the open position, as shown in Figure 6. Aperture 50 and protrusion 56 define a range of motion for control lever 52 which provides an intuitive adjustment for discharging stagnant air.

While exemplary embodiments of this invention have been set forth, one of ordinary skill in the art would recognize that certain modifications would come within the scope of this invention. For this reason, the following claims should be studied to determine the true extent and content of this invention.

Claims (17)

1. An air-conditioning unit comprising: a wall separating first and second sides, and including an opening providing fluid communication between the first and second sides; a control lever having a portion cooperating with the aperture to variably obstruct the aperture in response to angular movement of the control lever; and first and second locating features provided respectively by the control lever and wall which co-act to locate the opening control lever during angular movement. Unit according to Claim 1, characterized in that it comprises a housing including a partition providing outer air and room air chambers, the wall separating the outer air and room air chambers. Unit according to claim 2, characterized in that it comprises an evaporator and insufflator in fluid communication with the room air chamber to provide cooled room air. Unit according to Claim 3, characterized in that the control lever is pivotally supported by an outlet nozzle. Unit according to Claim 4, characterized in that the front grille provides input and output louvers, the control lever pivotally supported in proximity to the output louvers, and a lever lever rod extending through the louvers. . Unit according to claim 1, characterized in that the control lever includes an arm extending from the portion to a rod and pivotally supported for angular movement, the portion providing a surface blocking the opening in a closed position. Unit according to Claim 6, characterized in that the portion provides a protrusion extending from the surface, the protrusion received at the opening to provide vertical and horizontal alignment of the control lever relative to the wall. Unit according to Claim 6, characterized in that the portion includes a first wall extending through the opening, the first wall including an opening for discharging room air from the second side to the first side with the control lever in position. an open position. Unit according to claim 8, characterized in that the first wall is spaced from a portion of a perimeter of the opening in an open position and in contact with the perimeter portion in the closed position. Unit according to Claim 1, characterized in that the portion locates horizontally and vertically the control lever relative to the wall. Unit according to Claim 1, characterized in that the portion defines a range of motion of the control lever between open and closed positions. Method of mixing air in an air conditioning unit comprising the steps of: providing a control lever positioned relative to an opening in a wall and having a first locating feature; provide a second wall location feature; and angularly actuating the control lever to variably obstruct the aperture with the control lever while locating the control lever relative to an aperture with the first and second locating characteristics. A method according to claim 12, characterized in that it comprises cooling air to a room, and the angular acting step includes discharging the resin air from the room to an external environment. A method according to claim 12, characterized in that it comprises the step of connecting the control lever to a housing with a pivot, and the angularly acting step includes turning the control lever on the pivot. Method according to claim 12, characterized in that the step of providing the control lever includes inserting a portion of the control lever into the opening. Method according to claim 12, characterized in that it comprises the step of limiting travel of the location characteristics with the aperture. Method according to claim 12, characterized in that it comprises the step of vertically locating the wall control lever with the first and second locating characteristics.