KR200186561Y1 - Airconditioner - Google Patents

Abstract

The present invention relates to an air conditioner having a main body having an air discharge port formed therein and a louver member rotatably coupled to the air discharge port so as to control the wind direction, and a rotation pin protruding from any one of the main body and the louver member; A rotating pin hole is formed in the other of the main body and the louver member so as to receive the rotating pin, and at least one of the rotating pin holes extends horizontally in a rotational axis direction of the louver member to allow the rotating pin to elastically move in and out. An opening is formed. As a result, the louver member coupled to the air discharge port region can be easily separated and combined.

Description

Air conditioner

The present invention relates to an air conditioner having a main body formed with an air discharge port and an integrated louver member coupled to the air discharge port so as to control the wind direction, and more particularly, so that the louver member can be easily detached from the air discharge port. It relates to an air conditioner.

An air conditioner is a device for adjusting the temperature, humidity, airflow, and cleanliness of air sent to the room to create a comfortable indoor environment. The air conditioner is classified into an integrated type and a separate type according to the configuration of the unit.

The split type air conditioner usually divides the components that make up the refrigeration cycle into two parts, and the blower, the evaporator, and the air filter are indoors, and the compressor and the condenser are the outdoor units, which are placed indoors and outdoors, and interconnected with refrigerant piping. It is installed as possible.

The integrated air conditioner allows the components of the refrigeration cycle to be accommodated in a single case, compressing the refrigerant by a compressor to form a high temperature and high pressure gas, and decompressing the high temperature and high pressure refrigerant condensed by heat radiation in the condenser through a capillary tube. Done. The refrigerant decompressed through the capillary tube flows into the evaporator and evaporates to absorb latent heat of the surroundings to perform a cooling operation.

Figure 4 is an exploded perspective view of a conventional air conditioner, Figure 5 is an exploded perspective view showing a coupling state of the louver member of FIG. As shown in these figures, the air conditioner has an air inlet 107 formed on the front surface, the front casing 103 having an opening 109 formed thereon, and the rear casing coupled to the rear of the front casing 103. Have 105. A partition plate 111 is installed between the front casing 103 and the rear casing 105 to partition the space formed by the front casing 103 and the rear casing 105.

On the back of the air inlet 107 of the front casing 103 is provided a plate-shaped air filter 113 for collecting and collecting the dust in the air introduced through the air inlet 107, the rear of the air filter 113 The evaporator 115 is installed. At the rear of the evaporator 115 is formed a flow path duct of air 117 for guiding the heat exchanged air while passing through the evaporator 115, in which the cylindrical blower fan 119 is directed to both sides. It is coupled to the rotating shaft of the drive motor 121 having an extended rotating shaft. The other end of the rotation shaft of the drive motor 121 is provided with a propeller-shaped cooling fan 123 is blown toward the condenser 125 installed in the rear to promote the heat dissipation action of the condenser 125. One side of the drive motor 121 is provided with a compressor 127 to compress the refrigerant and provide it to the condenser 125.

The upper opening 109 of the front casing 103 is provided with a plate-shaped upper cover 129, the upper cover 129 has an air discharge port 131 so that the air guided from the flow path duct 117 is discharged Formed. The air discharge port 131 is provided with a rectangular cylindrical louver member 143 rotatably formed with a plurality of louvers integrally so as to adjust the wind direction of the discharged air. Rotating pins 144 extending outward from the plate surface in the longitudinal direction are formed on both side wall portions along the longitudinal direction of the louver member 143, respectively.

On the other hand, the one side edge in the longitudinal direction of the air discharge port 131 is formed with a rotation pin hole 133 through the plate surface so as to accommodate the rotation pin 144 of the louver member 143, the other side from the inside The pivot pin receiving hole 135 is cut off. In the adjacent area of the rotation pin accommodation hole 135, the rotation pin 144 is received from the opening, and the fixing piece 137 for preventing the rotation of the rotation pin 144 in the opening direction can be fixed with the screw 141. The screw fastening portion 139 is formed.

By this configuration, the pivot pin 144 formed on one side of the louver member 143 from the rear side of the upper cover 129 is coupled to the pivot pin hole 133, and then the pivot pin 144 formed on the other side is accommodated by the pivot pin. It is inserted from the opening of the ball 135. When the rotation pin 144 is received and coupled to the rotation pin accommodation hole 135, the fixing piece 137 is fastened to the screw fastening portion 139 and the screw 141 is fastened so that the rotation pin 144 is separated from the opening direction. To prevent it.

By the way, in such a conventional air conditioner, the fixing piece is fastened with a screw so that the louver member is inserted from the rear side of the upper cover and prevents the detachment of the upper cover. There is a problem.

Accordingly, it is an object of the present invention to provide an air conditioner capable of easily separating and coupling a louver member coupled to an air discharge port region.

1 is an exploded perspective view of an air conditioner according to the present invention;

2 is a partial perspective view of the louver member region of FIG. 1;

Figure 3 is an enlarged side view of the engaging groove area in the engaged state of Figure 1,

4 is an exploded perspective view of a conventional air conditioner,

5 is an exploded perspective view for explaining a coupling state of the louver member of FIG.

* Explanation of symbols for the main parts of the drawings

3: front casing 5: air intake

7: opening 9: back casing

17: evaporator 19: euro duct

21: blower fan 23: drive motor

30: upper cover 32: air discharge port

35: pivot pin 37: locking groove

39: louver member 41: rotating pin ball

43: rotation pin accommodation ball 45: locking jaw

The object is, according to the present invention, in the air conditioner having a main body with an air discharge port is formed, and a louver member rotatably coupled to the air discharge port so as to adjust the wind direction, protruding to any one of the main body and the louver member A pivot pin is formed in the pivot pin, and the other of the main body and the louver member to accommodate the pivot pin, and at least one of the pivot pin holes is a pivot axis of the louver member to allow the pivot pin to elastically enter and exit. It is preferable that an opening is formed horizontally in the direction.

Here, the pivot pin hole is formed on both side wall portions along the longitudinal direction of the louver member, and the pivot pin is effectively formed on both side edges of the air discharge port.

Preferably, a rotational resistance means is provided between the main body and the louver member to apply resistance to the rotation of the louver member.

The rotation resistance means includes a locking jaw protruding horizontally in the direction of the rotation axis of the louver member on the louver member, the body is arranged along the rotational trajectory of the locking jaw and a plurality of elastic engagement with the locking jaw It is effective that the locking groove is formed.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

Figure 1 is an exploded perspective view of the air conditioner according to the present invention, Figure 2 is a schematic view for explaining the coupling state of the louver member of Figure 1, Figure 3 is a side view of the combined louver member region of FIG. As shown in these figures, the air conditioner according to the present invention is also similar to the conventional air conditioner, the air inlet (5) is formed on the front surface, the front casing (3) having an opening (7) formed on the front, It is coupled to the rear of the casing (3) has an air inlet (11) is formed on the top and both sides and has a rectangular cylindrical rear casing (9) each formed with an air outlet (13) on the rear wall.

A plate-shaped air filter 15 is installed in an adjacent region of the air inlet 5 of the front casing 3 to collect and collect dust in the air introduced through the air inlet 5. At the rear, an evaporator 17 is installed to allow heat passing through the air filter 15 to pass through the heat exchanger. An air passage duct 19 of air is formed behind the evaporator 17, and a cylindrical blower fan 21 is provided in the passage duct 19. As shown in FIG. A driving motor 23 having a rotating shaft extending to both sides is coupled to the shaft center of the blowing fan 21, and a propeller-shaped cooling fan 27 is provided on the other side of the rotating shaft. At the rear of the cooling fan 27, a condenser 29 is installed to compress the compressor 25 provided at one side of the driving motor 23 to receive a refrigerant in a high temperature and high pressure state, and to dissipate and condense the refrigerant.

On the other hand, the opening 7 formed in the upper portion of the front casing (3) is provided with a plate-shaped upper cover 30, the upper cover 30 discharges air guided by the flow path duct 19 through the plate surface An air discharge port 32 is formed. Rotating pins 35 protruding inwardly are formed on both side edges in the longitudinal direction of the air discharge port 32 to face each other.

In the edge portion of the air discharge port 32, integral louver members 39 spaced apart from each other to adjust the wind direction of the discharged air are coupled to be rotatable. A rotating pin hole 41 is formed at one side end of the louver member 39 through the plate surface to accommodate the rotating pin 35 formed at the edge of the air discharge port 32. A rotating pin accommodation hole 43 opened from the lower edge of the louver member 39 is formed at the other end along the longitudinal direction of the louver member 39. The opening width of the rotation pin accommodation hole 43 is slightly smaller than the diameter of the rotation pin 35 so that the rotation pin 35 can pass elastically and has a hook shape.

In addition, a locking jaw 45 protruding downward from the plate surface is formed at the lower end of the pivot pin hole 41 at the louver member 39, and at one side edge of the air discharge port 32 corresponding thereto, the locking jaw 45 and the burnt out. A plurality of locking grooves 37 are formed in an arc shape along the rotational trajectory of the locking jaw 45 so as to sexually engage and apply resistance to the rotation of the louver member 39.

By this configuration, the pivot pin 35 is accommodated in the pivot pin hole 41 of the louver member 39 in a state where the louver member 39 is slightly inclined. Next, the opening of the rotation pin accommodation hole 43 formed on the other side is positioned in the rotation pin 35 formed on the other side, and when the louver member 39 is pressed downward, the opening of the rotation pin accommodation hole 43 is elastically opened. The rotating pin 35 is accommodated into the rotating pin receiving hole 43 while being deformed. At the same time, the locking jaw 45 formed at the other side is coupled into the locking groove 37 to prevent the louver member 39 from being inadvertently rotated.

When the wind direction of the discharged air is to be adjusted to grab the louver member 39 and rotate to stop at the desired position, the locking jaw 45 is elastically engaged along the plurality of locking grooves 37 arranged in an arc shape. As a result, the louver member 39 is inadvertently rotated to prevent the wind direction from changing.

As such, the rotation pin is formed on one of the edge and the louver member of the air discharge port, and the other is formed to be rotated horizontally in the axial direction of the rotation pin to form the rotation pin hole so that the rotation pin can be elastically hooked. By doing so, the louver member can be easily attached and detached.

In the above-described and embodiments, the rotating pin hole is formed in the louver member and the rotating pin is formed at the edge of the air discharge port. You may.

As described above, according to the present invention, there is provided an air conditioner capable of easily separating and combining the louver member coupled to the air discharge port region.

Claims (2)

In the air conditioner having a main body formed with an air discharge port, and a louver member rotatably coupled to the air discharge port to adjust the wind direction, A pair of pivot pins protruding toward one side of the main body and the louver member; Is formed in a position corresponding to the pivot pin in the other of the main body and the louver member, at least one of the pivot having an opening formed in the direction of the pivot axis of the louver member so that the pivot pin is elastically accessible. Pin ball; Resistant to the rotation of the louver member having a locking projection protruding horizontally in the direction of the rotation axis of the louver member, and a plurality of locking projections arranged on the main body along the rotational trajectory of the locking projection to elastically engage the locking projection. Air conditioner comprising a rotational resistance means for applying a. The method of claim 1, The rotating pin hole is formed on both side wall portions along the longitudinal direction of the louver member, and the rotating pin is formed on both side edges of the air discharge port.