KR20010001077A - Air-conditioner - Google Patents

Abstract

PURPOSE: A window air conditioner is provided to reduce the number of parts, manufacturing cost and space occupation by improving the structure of and reducing the number of a cross-flow fan. CONSTITUTION: An air conditioner comprises a casing(80) formed into a predetermined shape, a compressor(30) installed at a portion of the casing and which compresses a refrigerant gas, an evaporator(10) and a condenser(20) mounted within the casing, respectively, a cross-flow fan(90) installed between the evaporator and the condenser and which is formed to have a stepped portion so as to generate different volume of wind, a driving motor(100) for driving the cross-flow fan, an evaporator side guide channel for guiding the air generated from the cross-flow fan to be discharged into an indoor area after passing through the evaporator, and a condenser side guide channel for guiding the other air generated from the cross-flow fan to be discharged to an outdoor area after passing through the condenser. The compressor, condenser and the evaporator are connected by a refrigerant pipe, and a pressure control member is arranged between the condenser and the evaporator. The cross-flow fan is formed into a short diameter section(91) and a long diameter section(92) so as to generate different volume of wind when rotated.

Description

Window Air Conditioning {AIR-CONDITIONER}

The present invention relates to a window type air conditioner, and more particularly, to a window type air conditioner that not only significantly reduces the number of components but also simplifies the structure.

In general, the air conditioner is equipped with a refrigeration cycle device therein to maintain the room in a comfortable state by using the hot and cold air generated in the condenser and evaporator constituting the refrigeration cycle device. The air conditioner includes a window type air conditioner in which a refrigeration cycle apparatus is mounted in a case and mounted on a window, an outdoor unit equipped with a compressor, a condenser, etc. which generates noise and heat among components constituting the refrigeration cycle apparatus, and an evaporator and a blowing fan. It is divided into indoor units to be installed, and indoor and outdoor units are divided into separate air conditioners installed indoor and outdoor, respectively.

1 illustrates an example of a conventional window type air conditioner, and as shown in the conventional window type air conditioner, an evaporator 10 is mounted on one side of a base plate 1 having a predetermined area and the other side of the base plate 1. The condenser 20 is mounted to the compressor 30 between them. The evaporator side crossflow fan 40 and the condenser side crossflow fan 50 which generate air flow on the sides of the evaporator 10 and the condenser 20 are larger than the diameter of the evaporator side crossflow fan 40. Each of the motor 60 for driving the condenser side crossflow fan 50 is installed on the side of the condenser side crossflow fan 50 so as to be combined with the condenser side crossflow fan 60 and the condenser side crossflow fan 50. The pulleys 41 and 61 are respectively coupled to the 60 and the evaporator side crossflow fan 40, and the two pulleys 41 and 61 are connected to transmit power by the belt 51. And the shroud 70, 71 for guiding the flow of air is provided on the side of the evaporator 10 and the condenser 20, respectively, the cabinet to surround each component mounted on the base plate ( 2) is covered.

The operation of the conventional window air conditioner as described above is as follows.

First, as the power is supplied, the compressor 30 operates and at the same time the motor 50 operates. As the compressor 30 operates, cold air is formed in the evaporator 10, heat is released from the condenser 20, and the outside air is rotated while the crossflow fan 60 is rotated by the operation of the motor 50. The condenser 20 is cooled while sucking and discharging to the condenser 20 side. At the same time, as the evaporator side crossflow fan 40 connected by the condenser side crossflow fan 60 and the belt 51 rotates, the air in the room is sucked through the evaporator 10 and exchanged with the cold air to rest. It is discharged to the indoor side through the flow path formed by the wood 70.

However, the structure as described above is not only two crossflow fans of different diameters for controlling the indoor and the outside air flow rate, that is, the evaporator side crossflow fan 40 and the condenser side crossflow fan 60 are installed as well as two crosses. Power transmission means for driving the flow fan 40, 60 is provided with a large number of parts, the structure is complicated, and also takes up a lot of internal space, there was a problem that the overall size increases.

SUMMARY OF THE INVENTION An object of the present invention devised in view of the above problems is to provide a window type air conditioner that not only significantly reduces the number of components but also simplifies the structure.

1 is a side cross-sectional view showing an example of a conventional window air conditioner,

Figure 2a is a plan sectional view of the window air conditioner of the present invention,

Figure 2b is a side cross-sectional view of the window air conditioner of the present invention.

(Explanation of symbols for the main parts of the drawing)

10; Evaporator 20; Condenser

30; Compressor 80; Casing

90; Crossflow fan 91; Short diameter of cross flow fan

92; Long diameter of cross flow fan 100; Drive motor

110,120; Rear guides 111,121; Stabilizer

112,122; Side guide F; Evaporator side guide flow path

F '; Condenser side guide passage

In order to achieve the object of the present invention as described above, a casing formed in a predetermined shape, a compressor mounted on one side of the casing to compress refrigerant gas, an evaporator and a condenser respectively mounted on both sides of the casing, and the evaporator The crossflow fan, which is installed between the condensers and is formed stepwise to generate different air flows, the drive motor for driving the crossflow fan, and the air flow formed by the crossflow fan is guided to the room through the evaporator to be discharged to the room. A window type air conditioner is provided comprising an evaporator side guide passage and a condenser side guide passage for guiding the other air flow formed by the crossflow fan to be discharged to the outside through the condenser.

Hereinafter, the window type air conditioner of the present invention will be described according to the embodiment shown in the accompanying drawings.

2A and 2B illustrate an embodiment of a window type air conditioner according to the present invention. As shown in the drawing, the window type air conditioner according to the present invention is mounted to a casing 80 and a side of the casing 80 formed in a predetermined shape. Compressor 30 for compressing the refrigerant gas, the evaporator 10 and the condenser 20 mounted on both sides of the inside of the casing 80, and installed between the evaporator 10 and the condenser 20 are different from each other The crossflow fan 90 is formed to be stepped to generate the air volume, and a drive motor 100 for driving the crossflow fan 90. And an evaporator-side guide flow path F for guiding the air flow formed by the crossflow fan 90 to be discharged into the room via the evaporator 10 and another air flow formed by the crossflow fan 90. The condenser side guide flow path F 'is formed to guide the discharge to the outside through the condenser 20.

The compressor 30, the condenser 20, and the evaporator 10 are connected by a refrigerant pipe (not shown), and a pressure regulating means is connected between the condenser 20 and the evaporator 10.

The cross flow fan 90 is formed to be stepped in an outer diameter differently so as to generate a different air volume during rotation, the end is preferably formed of a short diameter portion 91 and a long diameter portion 92, that is, two stages.

The evaporator side guide flow path F includes a rear guide 110 formed to surround the short diameter portion 91 having a small outer diameter of the crossflow fan 90, a stabilizer 111 for dividing the suction region and the discharge region, and the evaporator 10. ) And a side guide 112 for partitioning the stepped region of the crossflow fan 90. The rear guide 110 is formed of a curved surface having a curvature greater than the curvature of the short diameter portion 91 is coupled to the casing 80 and the stabilizer 111 is formed to be bent to have a predetermined area and the crossflow Located at the fan shorter diameter portion 91 side and provided with a predetermined distance from the rear guide 110. The side guide 112 is formed to be bent to have a predetermined area and is coupled to connect one side of the evaporator 10 with a stepped portion where the short diameter portion 91 and the long diameter portion 92 of the crossflow fan 90 meet. .

The condenser side guide flow path F ′ has a rear guide 120 formed to surround the long diameter portion 92 having a large diameter of the crossflow fan 90, a stabilizer 121 for dividing the suction area and the discharge area, and the condenser ( It is formed by the side guide 122 for partitioning the stepped area 20 and the crossflow fan 90. The rear guide 122 is formed of a curved surface having a curvature greater than that of the long diameter portion 92, is coupled to the casing 80, and the stabilizer 121 is formed to be bent to have a predetermined area. Located at the side of the fan long diameter portion 92, and is provided to be spaced apart from the rear guide 120. The side guide 122 is formed to be bent to have a predetermined area and is coupled to connect one side of the condenser 20 and the stepped portion where the short diameter portion 91 and the long diameter portion 92 of the crossflow fan 90 meet. .

Hereinafter, the operational effects of the window type air conditioner of the present invention will be described.

First, the window-type air conditioner of the present invention is installed on a window or wall constituting the room such that the evaporator 10 is located indoors and the condenser 20 is exposed to the outside. As the compressor 30 operates in the installed state, cold air is formed in the evaporator 10 and heat is released from the condenser 20. At the same time, the driving motor 100 operates to generate air flow by rotating the crossflow fan 90. The crossflow fan 90 is different from the short diameter portion 91 and the long diameter portion 92. Air volume is generated. The indoor air flows through the evaporator 10 by the rotation of the crossflow fan short diameter part 91, and then the air cooled by heat exchange is discharged into the room through the evaporator side guide passage F. The outdoor air flows through the condenser side guide flow path F ′ by the rotation of the crossflow fan long diameter part 92 and is discharged to the outside while passing through the condenser 20 to cool the condenser 20.

In the present invention, since the flow of air is generated using the crossflow fan 90, the pressure is increased and the outer diameter ratios of the short diameter portion 91 and the long diameter portion 92 of one crossflow fan 90 are changed. By controlling the indoor and external air flow to an appropriate state, the number of parts is greatly reduced compared to the structure using two crossflow fans 40 and 60 having different diameters to control the indoor and external air flow. Becomes simpler.

In addition, the present invention is to operate one cross-flow fan 90, so that compared to the operation of the conventional two cross-flow fan (40, 60) is relatively less noise generation.

As described above, the window-type air conditioner according to the present invention uses one crossflow fan to control the indoor and external air flows, thereby reducing the number of parts and simplifying the structure, thereby reducing the overall manufacturing cost. As the size is reduced, it takes up less space for installation.

Claims (1)

A casing formed in a predetermined shape, a compressor mounted on one side of the casing to compress refrigerant gas, an evaporator and a condenser respectively mounted on both sides of the casing, and installed between the evaporator and the condenser to generate different air flow rates. A stepped crossflow fan, a drive motor for driving the crossflow fan, an evaporator side guide channel for guiding the air flow formed by the crossflow fan to be discharged to the room via an evaporator, and to the crossflow fan. And a condenser side guide passage for guiding the other air flow formed by the discharge to the outside through the condenser.