KR20000014320U - Flap Assembly of Window Air Conditioner - Google Patents

Abstract

The present invention is formed smaller than the outer diameter of the rotation axis of the flap to form an assembling groove having a protruding groove to have an elastic force and to form a hemispherical vibration absorbing hole to absorb the vibration at a position spaced apart from the assembling groove of the flap And a flap assembly of a window type air conditioner to prevent wind shaking, wherein the flap 20 is installed at the discharge port 30 of the indoor unit of the window type air conditioner to control the direction of the wind. The side wall 31 forms a protruding groove 111 and forms an assembling groove 11 which is smaller than the outer diameter of the support 21 of the flap 20, and has a hemispherical vibration absorbing hole at a position spaced apart from the assembling groove 11. It is characterized by forming (12).

The present invention eliminates the use of heat insulators in the conventional flap mounting structure and forms an assembly hole and a vibration absorbing hole on the side wall of the discharge port to prevent vibration caused by assembly tolerance and air volume, thereby reducing noise and preventing noise. There is.

Description

A flap assembly unit of window type air-conditioner

The present invention relates to a mounting structure of the flap (flap) is mounted to the discharge port of the indoor unit in the window-type air conditioner, specifically, is formed smaller than the outer diameter of the rotation axis of the flap to form an assembly groove having a protruding groove to have an elastic force It relates to a flap assembly of a window air conditioner to form a hemispherical vibration absorbing hole for absorbing the vibration at a position spaced apart from the assembly groove to prevent the flap assembly assembly tolerance and wind shaking.

In general, the air conditioner is divided into a separate room air conditioner that is separated from the window air conditioner formed by the indoor unit and the outdoor unit integrally, and a package air conditioner having a large capacity.

As shown in FIG. 3, a conventional window type air conditioner, which is generally installed and used in a window, includes a compressor 40 for compressing a refrigerant gas at a high temperature and a high pressure, and a high temperature transferred from the compressor 40. A condenser 50 for dissipating high-pressure refrigerant gas to gradually phase change into a liquid state, and an expansion valve for depressurizing the refrigerant transferred by phase change into a liquid state from the condenser 50 to a low temperature liquid and gas state (not shown). And evaporate while passing the low temperature liquid and gaseous refrigerant transferred from this expansion valve to take away the surrounding heat to keep the external temperature at a low temperature and at the same time transfer the evaporated refrigerant gas back to the compressor 40. The evaporator 60 is configured to achieve a refrigerant cycle.

In the window type air conditioner as described above, the base plate 70 is located between the interior and exterior barrier walls 71 and 72 assembled on the base plate 70 and the interior and exterior barrier walls 71 and 72. And a blower fan 81 fixed to a motor bracket assembled to the motor bracket, and blower fan 81 which is integrally assembled at both ends of the drive shaft of the drive motor 80 and installed on the interior and exterior blocking walls 71 and 72, respectively. Control box (not shown), which is assembled to the cooling fan 82, the indoor blocking wall 71 to control the refrigerant cycle, and assembled to be located in front of the indoor blocking wall 71 to suck in the indoor air. At the same time, it is composed of a discharge port 30 for discharging cold air and an upper case (not shown) which is assembled to the base plate 70 to protect each component.

As shown in the figure, the front and rear air conditioners are exposed to the interior and exterior, and the interior of the body is partitioned into an indoor space and an outdoor space by an indoor blocking wall 71 and an outdoor blocking wall 72. The blocking wall 71 is provided with a drive motor 80 for transmitting rotational force in both directions from the center.

In addition, an evaporator 60 for absorbing ambient heat and a compressor 40 for compressing a refrigerant at high temperature and high pressure are installed in the indoor space part. The outdoor space part at the rear is compressed at a high temperature and high pressure in the compressor 40. The condenser 50 for liquefying the refrigerant to condense to room temperature is installed, the condenser 50 is a plurality of refrigerant pipes in which the refrigerant flows is arranged in a zigzag form, the heat generated in the outer periphery of each refrigerant pipe Heat radiation fins (not shown) for radiating heat are formed, and outdoor suction holes 90 are formed at both side plates of the outdoor space portion, and outdoor discharge holes (not shown) are formed at the rear of the condenser 50.

In the conventional window type air conditioner configured as described above, the flap 20 is mounted to the discharge port 30 installed in the front of the air conditioner indoor unit, as shown in Figure 4 for discharging the air cooled inside the air conditioner to the room To determine the direction.

FIG. 5 is a view illustrating a mounting state of a flap in a conventional window type air conditioner and inserts and supports the support 21 of the flap 20 into a plurality of assembly holes 13 formed in the side wall 31 of the discharge port 30 of the air conditioner. 6 is a cross-sectional view showing the fastening state of the flap, the flap 20 is assembled with the assembly hole 13 in the state in which the support 21 of the flap 20 is inserted into the assembly hole 13 formed in the side wall 31 of the discharge port. In order to prevent the shaking caused by the assembly tolerance of the support 21 to prevent the shaking phenomenon of the flap 20 due to the assembly tolerance by fixing the support 21 using the heat insulating material 14 to the rear end of the side wall 31. .

However, in the conventional flap assembling method as described above, there is a problem in that the production cost is increased and the working time is increased due to the use of a heat insulating material separately to prevent the shaking phenomenon caused by the assembly tolerance.

The present invention is to improve the problems in the conventional window type air conditioner as described above, to form and fix the assembly groove having a smaller elastic force than the outer diameter of the flap support and to form a vibration absorbing hole in the spaced apart from the assembly groove flap It is an object of the present invention to provide a full wrap assembly of a window type air conditioner that can reduce the manufacturing cost by preventing the assembly tolerance and wind shaking phenomenon.

In order to achieve the above object, the present invention is installed in the discharge port of the indoor unit of the window type air conditioner in the flap to control the direction of the wind, forming a protrusion groove on the side wall of the discharge port and forms an assembly groove smaller than the outer diameter of the flap support And, it characterized in that to form a hemispherical vibration absorbing hole in the position spaced apart from the assembly groove.

1 is a flap mounting state in the assembly of the present invention

2 is an enlarged plan sectional view of portion A of FIG.

3 is a cross-sectional view of a typical window air conditioner

4 is a mounting position of the flap in the window air conditioner

5 is a mounting state of the flap in the conventional window type air conditioner

6 is a cross-sectional view of the flap mounted to a conventional window air conditioner

Explanation of symbols for the main parts of the drawings

10: assembly 11: assembly groove

12: vibration absorption hole 20: flap

21: support 30: discharge port

31: side wall 111: protrusion groove

Hereinafter, an embodiment of a flap assembly of a window type air conditioner of the present invention will be described in detail.

1 is a view showing a flap mounting state in the assembly of the present invention, as shown, the assembly 10 of the present invention is formed on the side wall of the discharge port 30 to adjust the direction of the wind discharged to the assembly 10 The support 21 formed on the left and right sides of the flap 20 is inserted and fixed.

FIG. 2 is an enlarged plan sectional view of portion A of FIG. 1, showing the assembly 10.

That is, the assembly 10 is composed of the assembly groove 11 and the vibration absorbing hole 12 to be configured to be slightly smaller than the outer diameter (indicated by the dotted line in the drawing) of the support 21 of the flap and the elastic force in the assembly groove 11 Protruding groove 111 is formed for.

The vibration absorbing hole 12 is formed in a hemispherical shape at a position spaced apart from the assembly groove 11 to absorb the vibration of the support 21 due to the air volume and has a larger outer diameter than the assembly groove 11 but is formed in a hemispherical shape. It is done.

Referring to the operation of the flap assembly of the window-type air conditioner of the present invention configured as described above are as follows.

The outside air introduced into the inside of the air conditioner through the suction grille by the operation of the blower fan in the window type air conditioner cools the room while repeating the process of being heat-exchanged through the evaporator and then being discharged to the outside through the discharge port 30.

The discharge port 30 is provided with a plurality of flaps 20 for adjusting the direction of the wind discharged to the outside, the flap 20 is shaken due to the amount of air flow caused the air conditioning noise.

Therefore, in the present invention, the assembly 10 to which the support 21 of the flap is assembled is configured to prevent shaking, and as shown in FIG. 2, the assembly groove 11 is configured to be somewhat smaller than the outer diameter of the support 21 of the flap. And to form a protrusion groove 111 for the elastic force in the assembly groove 11 to insert the support 21 of the flap 20 into the assembly groove 11 so that the assembly tolerance does not occur, the assembly groove 11 In the protrusion groove 12 formed in the assembly groove 11 was configured to have an elastic force when the support 21 is inserted.

In addition, the vibration phenomenon caused by the air volume by the air conditioner is absorbed by the vibration absorbing hole 12 formed in a hemispherical shape at a position spaced apart from the assembly groove 11 to suppress noise generated by the vibration of the flap 20 caused by wind. will be.

As described above, the present invention eliminates the use of heat insulators in the conventional flap mounting structure and forms an assembly hole and a vibration absorbing hole on the side wall of the discharge port to prevent vibrations caused by assembly tolerances and air volume, thereby reducing noise and preventing noise. It is effective.

Claims (1)

In the flap 20, which is installed in the discharge port 30 of the indoor unit of the window air conditioner to adjust the direction of the wind, the side wall 31 of the discharge port 30 to form a protrusion groove 111 and the flap 20 support ( 21. A flap assembly of a window type air conditioner, characterized by forming an assembling groove (11) smaller than the outer diameter of 21 and forming a hemispherical vibration absorbing hole (12) in a position spaced apart from the assembling groove (11).