KR20000042322A - Orifice for condenser of window type air conditioner - Google Patents

Abstract

PURPOSE: An orifice for a condenser of an air conditioner is provided to prevent leakage of air and condensate water by forming grooves having a certain depth along the side wall of an orifice and by combining ribs of a condenser to the grooves when assembling an orifice with a condenser. CONSTITUTION: An orifice(200) is composed of an annular shroud(210) formed to surround a tip part of a fan(11) and an orifice body(220) extended in the direction of a condenser(2) from the shroud. The orifice body is extended while having its width gradually enlarged and the outer face of the orifice body is corresponding to a rib(20) of the condenser. Grooves(230) are formed along the outer face of the orifice body to be combined to the ribs. The outer face of the orifice is divided into an inner circumference part(240) and an outer circumference part(250) by the grooves. The outer circumference part is extended toward the rib a certain length longer than the inner circumference part. Many screw holes are formed in the position corresponding to the outer circumference part and the rib to make screws(290) inserted when the orifice is combined to the rib of the condenser. The inner and outer circumference parts are combined to surround the inner and outer parts of the rib. The air blown into the orifice by a fan(11) directly passes the condenser without leaked out of the orifice.

Description

Orifice for condenser in window air conditioners

The present invention relates to an orifice for condenser of an air conditioner, and more particularly, to a condenser orifice in which a condenser fastening portion of an orifice is formed in duplicate so that air and condensate do not leak between the condenser and the orifice coupling part.

In general, an air conditioner is a device for maintaining a temperature and humidity suitable for the human body by conditioning air in a home or office. The air conditioner is operated such that the indoor temperature is approximately 28 ° C., the indoor humidity is approximately 60-75% in summer, and the indoor temperature is approximately 18 ° C., and the indoor humidity is approximately 55-70% in winter.

In the air conditioner, as shown in FIG. 1, all the components are combined into one unit 100. In the air conditioner unit 100, an exhaust grill portion 13 for blowing the evaporator 4 and the cooled air into the interior is installed toward the interior, and the condenser part extends outdoors. And cooled by outdoor air.

In more detail based on the flow of the refrigerant, the air conditioner 100 is a compressor (1) for compressing the refrigerant gas to high temperature and high pressure to perform a cooling cycle, the high temperature and high pressure refrigerant gas from the compressor (1) Condenser 2 for gradually condensing into a liquid phase through heat dissipation, expansion valve 3 for lowering the pressure of the liquid refrigerant from the condenser 2 to form a low temperature gas-liquid mixed refrigerant, and the low temperature. It is provided with an evaporator (4) to evaporate the gas-liquid mixed refrigerant to absorb the ambient heat and to send the evaporated refrigerant back to the compressor (1).

In this case, the air conditioning efficiency of the air conditioner 100 depends on the degree of condensation efficiency of the condenser 2. As shown in FIG. 2, in the conventional air conditioner 100, the fan 11 is coupled to one side 9b of the rotating shaft of the driving motor 9 to be rotated when the driving motor 9 is driven. The outdoor air is forcibly sucked by the rotation of the fan 11, and the sucked air passes through the condenser 2 located in front of the fan 11, exchanges heat with the refrigerant inside the condenser 2, and then discharges it to the outside. do.

In general, the orifice 7, the motor housing 8, the motor 9, the blower 10, and the fan 11 are provided in one assembly and coupled to the condenser 2. From the outer circumferential side wall of the condenser 2, the rib 20 extends a predetermined length toward the orifice 7 side. The outer periphery of the orifice 7 is engaged with the condenser 2 via a plurality of screws 30 from the outside of the rib 20.

However, there are cases in which the side wall of the orifice 7 does not fit properly with the rib 20 of the condenser 2 and is deviated from the actual assembly process. In this case, air and condensate that is blown through the fan 11 leaks between the rib 20 and the sidewalls of the orifice 7. Therefore, the cooling efficiency of the condenser 2 is lowered and the overall air conditioning efficiency of the air conditioner 100 is lowered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to form a groove having a predetermined depth along the sidewall of the orifice and to allow the rib of the condenser to engage with the groove when the orifice is assembled to the condenser. The object is to provide an orifice for the condenser of an air conditioner that can prevent the leakage of air and condensate.

In order to achieve the above object, the present invention provides a condenser having a rib protruding a predetermined length along the outer periphery and an orifice for a condenser of the air conditioner comprising a fan for cooling the condenser by blowing air in the condenser direction, An annular shroud (SHROUD) formed to surround the tip of the fan, an orifice body extending from the shroud in the direction of the condenser, and formed along the outer periphery of the orifice body so that the outer periphery is an inner outer periphery and an outer outer periphery; It is separated into, and provides an orifice for a condenser of an air conditioner comprising a groove engaging with the rib.

The width of the groove is formed to be approximately equal to the thickness of the rib, and the outer outer periphery extends to the rib side by a predetermined length more than the inner outer periphery so as to be engaged with the rib through a screw.

Since the orifice has a structure of double blocking the inside and the outside of the rib of the condenser, the air and condensed water is less likely to leak between the rib and the orifice, thereby increasing the cooling efficiency of the condenser and thus improving the air conditioning efficiency of the air conditioner. You can.

1 is an exploded perspective view of a typical window air conditioner.

2 is a cross-sectional view of an orifice for a condenser of a conventional air conditioner.

3 is a cross-sectional view of an orifice for a condenser of an air conditioner according to the present invention.

<Explanation of symbols for main parts of drawing>

2: condenser 9: motor

11: fan 20: rib

200: orifice 210: shroud

230: groove 240: inner outer periphery

250: outer peripheral edge

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG. 3.

In general, an air conditioner is a device for maintaining a temperature and humidity suitable for the human body by conditioning air in a home or office. The air conditioner is operated such that the indoor temperature is approximately 28 ° C., the indoor humidity is approximately 60-75% in summer, and the indoor temperature is approximately 18 ° C., and the indoor humidity is approximately 55-70% in winter.

In more detail based on the flow of the refrigerant, referring again to FIG. 1, the air conditioner is a compressor 1 for compressing a refrigerant gas to a high temperature and a high pressure to perform a cooling cycle, the high temperature from the compressor 1. A condenser 2 for gradually condensing the high pressure refrigerant gas into the liquid phase through heat dissipation, and an expansion valve 3 for lowering the pressure of the liquid refrigerant from the condenser 2 to form a low temperature gas-liquid mixed refrigerant And an evaporator 4 which evaporates the low temperature gas-liquid mixed refrigerant to absorb ambient heat and sends the evaporated refrigerant back to the compressor 1.

In this case, the air conditioning efficiency of the air conditioner 100 depends on the degree of condensation efficiency of the condenser 2. As shown in FIG. 3, the fan 11 is coupled to one side 9b of the rotation shaft of the drive motor 9 to be rotated when the drive motor 9 is driven. The outdoor air is forcibly sucked by the rotation of the fan 11, and the sucked air passes through the condenser 2 located in front of the fan 11, exchanges heat with the refrigerant inside the condenser 2, and then discharges it to the outside. do.

In general, the orifice 200, the motor housing 8, the motor 9, the blower 10, and the fan 11 are provided in one assembly and coupled to the condenser 2. From the outer circumferential side wall of the condenser 2, the rib 20 extends a predetermined length toward the orifice 200 side.

Orifice 200 according to the present invention includes an annular shroud (SHROUD) 210 formed to surround the tip of the fan 11, the orifice body 220 extending from the shroud 210 in the direction of the condenser (2) do. The orifice body 220 extends wider so that its outer periphery corresponds to the rib 20 of the condenser 2.

A groove 230 engaged with the rib 20 is formed along the outer circumference of the orifice body 220. The outer periphery of the orifice body 220 is separated into the inner periphery 240 and the outer periphery 250 by the formation of the groove 230.

Preferably, the width of the groove 230 is formed to be approximately equal to the thickness of the rib 20. Therefore, when fastening the orifice 200 to the rib 20 of the condenser 2, it is possible to prevent the space to be created as much as possible in the fastening portion.

According to a preferred embodiment of the present invention, the outer circumferential edge portion 250 extends toward the rib 20 by a predetermined length more than the inner circumferential edge portion 240. A plurality of screw holes are formed in the outer circumferential edge portion 250 and the rib 20 at positions corresponding to each other so that the screw 290 is inserted when the orifice 200 is fastened to the rib 20 of the condenser 2.

Since the inner and outer circumferential edges 240 and 250 are fastened to surround the inside and the outside of the rib 20, the air blown into the orifice 200 by the fan 11 is immediately leaked out of the orifice 200. Pass through the condenser (2).

Since the orifice has a structure of double blocking the inside and the outside of the rib of the condenser, the air and condensed water is less likely to leak between the rib and the orifice, thereby increasing the cooling efficiency of the condenser and thus improving the air conditioning efficiency of the air conditioner. You can.

Although the present invention has been described based on the preferred embodiments, various modifications and improvements can be made within the scope of the technical idea of the present invention, and those skilled in the art will recognize that such variations and improvements also belong to the present invention. .

Claims (2)

In the condenser orifice of the air conditioner comprising a condenser having a rib protruding a predetermined length along the outer periphery and a fan for blowing air to the condenser direction to cool the condenser, An annular shroud (SHROUD) formed to surround the tip of the fan; An orifice body extending from the shroud in the condenser direction; And And a groove formed along an outer circumference of the orifice body to separate the outer circumference into an inner outer circumference and an outer circumference and engaging with the ribs. The width of the groove is formed to be approximately equal to the thickness of the rib, wherein the outer outer periphery extends to the rib side a predetermined length more than the inner outer periphery so that it can be engaged with the rib through a screw An orifice for condenser of an air conditioner.