BRPI0622205A2 - air conditioning unit, and, Method to manufacture the same - Google Patents

Abstract

AIR CONDITIONING UNIT AND METHOD FOR MANUFACTURING THE SAME. An air conditioning unit is provided that includes a condenser having an elongated portion and a curved portion. In one example, the condenser is an L-shape or U-shape. The curved portion is supported by a tube plate providing first and second wall portions. The first wall portion is attached to a condenser cover, and a second wall portion is attached to a housing. In one example, condenser coils extend from the tube sheet. The condenser coils are unobstructed by the cover. In one example, the cover includes a side wall having a hole surrounding a fan. A side wall extends from the side wall and includes a flange. The flange is attached to the first wall portion by fasteners, in one example. In one example, the second wall portion is spaced from the first wall portion and attached to a housing base container at one end and a top cover at the other end.

Description

"AIR CONDITIONING UNIT AND METHOD FOR MANUFACTURING IT"

BACKGROUND OF THE INVENTION

This application relates to a condenser and cover mounting arrangement for an air conditioning unit. More particularly, the application relates to an arrangement for supporting a condenser tube plate end relative to the cap and structural members of the air conditioning unit.

Room air conditioning units include a compressor that circulates refrigerant from an evaporator to produce room-cooled air. The refrigerant is circulated to a condenser, which is typically rear mounted and exposed to the external environment. The condenser receives air from a fan to reject heat from the condenser before returning to the compressor.

An example air conditioning unit is a window mounted unit that requires a compact design. L-shaped or U-shaped condensers were used in window air conditioning units to reject a larger amount of heat in a compact package. The condenser must be securely retained within an air conditioning unit housing. Typically, a cover is arranged internally of the condenser to provide a seal between the fan and the condenser. Condenser ends are typically supported by a tube plate through which condenser coils extend. Each tube plate typically includes several openings on one side, which are used to secure the tube plates to opposite ends of the cap. An example cover includes a fairly large sidewall that obstructs the outside of the short leg of an L-shaped condenser. The sidewall prevents the fan from blowing air through the short leg, thereby reducing the amount of heat that the short leg has. is able to reject. In addition, the large cover sidewall unnecessarily adds material, weight and cost to the cover.

What is needed is an improved mounting arrangement between the condenser and cover, which does not reduce the efficiency of the cover while properly supporting the condenser.

SUMMARY OF THE INVENTION

An air conditioning unit is provided that includes a condenser having an elongated portion and a curved portion. In one example, the condenser is an L-shape or U-shape. The curved portion is supported by a tube plate providing first and second wall portions. The first wall portion is attached to a capacitor cover, and a second wall portion is attached to a housing.

In one example, condenser coils extend from the tube plate. The condenser coils are clear by the cover. In one example, the cover includes a sidewall having a hole surrounding a fan. A sidewall extends from the sidewall and includes a flange. The flange is secured to the first wall portion by fasteners, in one example. In one example, the second wall portion is spaced from the first wall portion and secured to a housing base container at one end and a top cover to the other end.

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 DRAWINGS

Figure 1 is an exploded perspective view of an example air conditioning unit.

Figure 2 is an enlarged perspective view of an unfolded condenser illustrating the relationship between condenser coils and a tube plate. Figure 3 is a top perspective view of the capacitor shown in Figure 2 in a partially folded state installed in the unit shown in Figure 1.

Figure 4a is a front perspective view of the unit with a spaced condenser top cover and a cover.

Figure 4b is a front perspective view of the unit shown in Figure 4a with the top cover installed relative to the capacitor and cover.

Figure 5 is a top perspective view of the unit shown in Figure 4b.

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 wrap assembly 14. Base container 12 supports a compressor 16 which pumps refrigerant to a condenser 18. One Expansion device (not shown) is arranged in a known manner, for example upstream of condenser 18. Expanded refrigerant flows to an evaporator 20 before returning to compressor 16. A motor 24 blows air through evaporator 20 using an insufflator 26 to provide air cooled by a front grille 22 which is exposed to an indoor environment for example. The insufflator 26 recirculates ambient air through a partition 28 to further cool the 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 hole or cap 32 provides a seal between capacitor 18 and fan 30. In one example, the entire housing includes a top cover 34 arranged between cap 32 and condenser 18 to provide a housing over fan 30. A controller 36 communicates with compressor 16 and motor 24 in a known manner to provide desired ambient air conditioning.

In an exemplary arrangement shown in Figures 2 and 3, capacitor 18 includes first and second capacitor rows 38, 40 respectively having first and second capacitor coils 42, 44 to which fins are attached. Condenser 18 includes an unfolded state (Figure 2) and a folded state (Figure 3). In one example, the folded state may provide an L-shaped or U-shaped arrangement. Ends of the first and second capacitor rows 38, 40 are supported by a tube plate 46 in the unfolded state. Tube plate 46 includes a surface 51 having openings 48 and elongated openings 49. The first condenser coils 42 extend through and are securely retained by openings 48 in tube plate 46. Tube plate 46 also includes elongate openings 49 by which the second capacitor coils 44 extend.

In an exemplary manufacturing process, the first and second rows of capacitor 38, 40 are of approximately equal length in the unfolded state. An end portion of condenser 18 is bent to provide a folded state condenser shown in Figure 3. Condenser 18 shown in Figure 3 includes an elongated portion 50 and a short leg or bent portion 52 which is supported by the tube plate. 46. Second capacitor coils 44 are spaced from tube plate 46 in the folded state provided that the distance above the condenser 18 is greater than the distance inside the condenser 18.

Referring to Figures 3 and 4a, the cover 32 includes a sidewall 58 having a hole 60 receiving the fan 30. A sidewall 62 extends generally perpendicular to the sidewall 58 in the example shown. A flange 64 extends outwardly from sidewall 62 and away from sidewall 58 at an angle that is sharp from sidewall 62 (best shown in Figure 5). Flange 64 terminates such that it leaves the first and second condenser coils 42, 44 exposed in the example shown. The outer surface of the second row of condenser is exposed and unobstructed by the cover.

Pipe plate 46 includes a first wall portion 54 bent at an angle relative to surface 51 for complementary engagement of flange 64. Flange 64 and first wall portion 54 respectively include holes 66, 68 which align with one another to receive fasteners 67, best shown in Figures 4a-5. In this manner, cap 32 is mounted on capacitor 18 while obstructing a minimal portion of capacitor 18 to ensure its efficient operation. The tube plate 46 also includes a second wall portion 56 which is spaced from the first wall portion 54 in the example shown. The second wall portion 56 is arranged at a generally right angle to the surface 51. A lower portion of the second wall portion 56 includes a hole 70 that aligns with forum 72 on a perimeter wall 13 extending from the base container 12. A fastener 71 holds the base container 12 and capacitor 32 together with a fastener 71.

Top cover 34 is supported between capacitor 18 and cover 32. An upper portion of second wall portion 56 includes a hole 70 (Figures 2 and 3) which is aligned with a corresponding forum 72 (Figure 4a) on the cover. top 34 to receive a fastener 71. In this way, capacitor 18 is mounted and secured to the housing of unit 10.

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 (16)

Air conditioning unit, characterized in that it comprises: a condenser having an elongated portion and a curved portion, the curved portion supported by a tube plate including first and second wall portions; a capacitor cap attached to the first wall portion; and a housing attached to the second wall portion. Unit according to claim 1, characterized in that at least one of the first and second rows is supported by the tube plate. A unit according to claim 2, characterized in that the condenser includes first and second condenser rows, the first row supported by the tube plate, the second row including a condenser coil arranged near and spaced from the pipe plate. a folded state. Unit according to Claim 2, characterized in that the first and second wall portions are spaced apart, the first wall portion near the first row in the unfolded state and the second wall portion near the second row in the unfolded state. unfolded. Unit according to claim 1, characterized in that the first and second wall portions each include at least one opening respectively aligned with at least one other opening in each of the condenser cover and housing, at least one fastener securing each one. capacitor cap and housing respectively to the first and second wall portions. A unit according to claim 1, characterized in that the tube plate includes a surface through which first row condenser coils extend, the second wall portion perpendicular to the surface. Unit according to Claim 6, characterized in that the first wall portion is less than perpendicular to the surface. Unit according to Claim 1, characterized in that the housing includes a top cover extending between the condenser and the condenser cover, the top cover attached to the second wall portion. Unit according to Claim 1, characterized in that the housing includes a base container, the base container attached to the second wall portion. Unit according to Claim 1, characterized in that the condenser cap includes a side wall and a side wall extending from the side wall, the side wall including a flange attached to the first wall portion. Unit according to Claim 1, characterized in that the second wall portion is left uncovered by the condenser cover. Unit according to Claim 10, characterized in that the side wall includes a hole and a fan extends through the hole. A method for manufacturing an air conditioning unit, comprising the steps of: providing a condenser including a curved portion; supporting one end of the condenser with a tube plate; and attaching a condenser cap to the tube plate leaving an end exterior exposed by the condenser cap. Method according to claim 13, characterized in that it comprises the step of securing the tube plate to a base container. Method according to claim 13, characterized in that it secures the pipe plate to a top plate extending between the condenser cap and the condenser, the top plate leaving the exterior exposed. Method according to claim 13, characterized in that the exterior is on a side opposite a fan.