KR200198156Y1 - adjusting device of delivery air of air conditioner - Google Patents

Abstract

In the air conditioner of the air conditioner according to the present invention is installed in the discharge port of the frame inserted in the upper portion of the front panel in the air conditioner comprising a discharge wind direction control member for adjusting the direction of the air discharged through the discharge port, A spline shaft into which a square shaft formed at one side of the discharge wind direction control member is inserted, an elastic member for exerting a resilience force on the discharge wind direction control member at one side of the spline shaft, and the frame to mesh with teeth of the spline shaft The present invention is characterized in that it comprises a locking portion formed in the inner peripheral surface of the outer wall of the present invention is not only easy to assemble the discharge wind direction control member but also adjust the angle by engaging the teeth when adjusting the discharge wind direction angle of the parts The effect of precisely adjusting the desired angle without abrasion There.

Description

Adjusting device of discharge air direction of air conditioner

The present invention relates to a device for controlling the discharge direction of the air conditioner to heat the indoor air in the integrated air conditioner to smoothly control the direction of the air discharged back to the room.

In general, air conditioners are classified into various types according to their function or configuration of the unit. In the classification by function, the air conditioners can be classified into cooling only, cooling and dehumidification only, and cooling and heating. And an integrated air conditioner integrated with a heat dissipation function may be classified into an integrated air conditioner installed in a window and the like, and a separate air conditioner installed separately from a heat dissipation and compression device on an indoor side.

As shown in Figs. 1 to 3, the integrated air conditioner as described above is provided with a front panel 10 having a suction port 11 for sucking air on the front surface of the interior side I. On the upper surface of the panel 10 is inserted a frame 20 having a space in which the discharge wind direction adjusting member 21 and the temperature control and master control switches 22 and 23 for controlling the temperature of the air and the speed of the fan are respectively inserted. It is.

The discharge wind direction adjusting member 21 has a plurality of blades 21a are erected at regular intervals, and shafts 21b are formed on both sides thereof to be installed and rotatable in the through holes 20a of the frame 20. It is.

The indoor side (I) and the outdoor side (O) are divided with the partition member 30 therebetween, and the inlet 11 of the front panel 10 is located inside the front panel 10 of the indoor side I. The air introduced through the evaporator is purified while passing through the filter 40 to exchange heat with cold air, and transfers power of a motor (not shown) to suck the air in the room to the rear of the evaporator 50. A blower 60 that rotates to receive the product, a control box 70 for controlling a product on the side of the blower 60, and an inlet of the evaporator 50 to expand the refrigerant of room temperature and high pressure to a low temperature low pressure in a condenser described later. The capillary tube 80 is provided.

In the space of the outdoor side (O) formed on the rear of the partition member 30, a compressor (80) for compressing the refrigerant supplied from the evaporator (50) to a high temperature and high pressure on the bottom of one side of the base panel 31, and the Condenser 100 for condensing the refrigerant compressed from the compressor 80 at room temperature and high pressure on the rear side of the outdoor side O, and outdoor air is condenser 100 between the condenser 100 and the partition member 30. Propeller fan 110 is driven by the power of the motor (not shown) to be heat exchanged through the).

In the conventional integrated air conditioner configured as described above, when the power is applied by operating the control box 70 by a remote controller or a hand, the blower 60 and the propeller fan 110 are driven according to the driving of the motor (not shown). At the same time, the refrigerant introduced by the compressor 90 is compressed to high temperature and high pressure, and the compressed refrigerant is converted to room temperature and high pressure while passing through the condenser 100 through the refrigerant line, and the refrigerant is capillary tube 80. As it passes through the low temperature and expands to a low temperature and low pressure flows into the evaporator 50, it becomes a complete gas refrigerant of low temperature and low pressure to form a refrigerant cycle flowing into the compressor 90 again.

At this time, the hot air in the room is introduced through the inlet port 11 of the front panel 10 in accordance with the suction force of the blower 60 of the indoor side (I) to pass through the evaporator 50, cold air The heat exchanger is discharged back into the room through the discharge wind direction control member 21 on the upper side of the blower 60 to cool the room.

However, in the conventional integrated air conditioner as described above, when the air in the room is heat-exchanged with the cold air in the evaporator 50 and discharged again to the room, the discharge wind direction control member 21 moves the shaft 21b. The direction of the wind direction is adjusted by rotating to the center. The shaft 21b of the discharge wind direction adjusting member 21 is inserted into the through hole 20a of the frame 20 with a fitting tolerance, so that the user can discharge the wind direction adjusting member. When rotating the 21 around the shaft 21b, the wind direction is controlled by the frictional force of the shaft 21b in the through hole 20a of the frame 20, but the discharge wind direction adjusting member 21 is frequently used. As a result, the shaft 21b is worn in the through hole 20a, and the discharge wind direction control member 21 is freely rotated, and thus there is a problem in that the desired wind direction cannot be adjusted.

Therefore, the present invention is devised to solve the above problems, the object of the present invention is to convert the air of the room into cold air, the user is not worn when adjusting the direction of the air discharged back to the room up and down It is to provide a discharge wind direction control device for an air conditioner to adjust the desired angle.

In order to achieve the above object, the discharge wind direction control device of the air conditioner according to the present invention is installed in the discharge port of the frame inserted in the upper part of the front panel and controls the discharge wind direction control member for controlling the direction of the air discharged through the discharge port. An air conditioner comprising: a spline shaft into which a square shaft formed on one side of the discharge wind direction control member is inserted; an elastic member exerting elasticity on the discharge wind direction control member on one side of the spline shaft; And engaging portions formed with teeth on the inner circumferential surface of the outer wall of the frame so as to engage teeth of the line axis.

1 is a perspective view showing a general air conditioner,

Figure 2 is an exploded perspective view showing a conventional air conditioner,

3 is a cross sectional view showing a discharge wind direction control member of a conventional air conditioner;

Figure 4 is an exploded perspective view showing a discharge wind direction control device of the air conditioner according to the present invention,

5 is an assembly cross-sectional view showing a discharge wind direction control apparatus of an air conditioner according to the present invention;

6 is an assembled sectional view showing an operating state of the discharge wind direction control apparatus according to the present invention;

Fig. 7 is a front view seen from Fig. 5A.

Explanation of symbols on the main parts of the drawings

120: discharge direction control member 121: square shaft

130: spline shaft 131: teeth

132: seating protrusion 140: elastic member

150: hook portion 151: teeth

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

As shown in FIGS. 4 to 7, the air conditioner is divided into the interior side I and the outdoor side O with the partition member 30 interposed therebetween, and the interior side I front panel 10. In the inside of the evaporator 50, the air introduced through the inlet 11 of the front panel 10 is purified by passing through the filter 40 to exchange heat with cold air, and indoors on the rear of the evaporator 50 Blower 60 is rotated by receiving the power of the motor (not shown) to suck the air of the air, the control box 70 for controlling the product on the side of the blower 60, and the inlet of the evaporator 50 In the condenser described later, a capillary tube 80 for expanding the refrigerant at room temperature and high pressure to low temperature and low pressure is provided.

In the space of the outdoor side (O) formed on the rear of the partition member 30, a compressor (80) for compressing the refrigerant supplied from the evaporator (50) to a high temperature and high pressure on the bottom of one side of the base panel 31, and the Condenser 100 for condensing the refrigerant compressed from the compressor 80 at room temperature and high pressure on the rear side of the outdoor side O, and outdoor air is condenser 100 between the condenser 100 and the partition member 30. Propeller fan 110 is driven by the power of the motor (not shown) to be heat exchanged through the).

Discharge wind direction control device of the air conditioner according to the present invention is installed in the discharge port of the frame 20 inserted in the upper portion of the front panel 10 to discharge direction control member for controlling the direction of the air discharged through the discharge port ( 120, a spline shaft 130 into which the square shaft 121 formed on one side of the discharge wind direction control member 120 is inserted, and the discharge wind direction control member 120 on one side of the spline shaft 130. Resilient member 140 is applied to the elastic member 140 and the teeth 151 of the spline shaft 130, the engaging portion 150 is formed in the inner peripheral surface of the teeth 151 on the outer wall of the frame 20 so as to engage It consists of).

The discharge wind direction control member 120 has a plurality of blades 121 are erected at regular intervals, the circular shaft 122 is formed on the opposite side of the square shaft 121 of the discharge wind direction control member 120 to the frame ( It is provided in the through-hole 20a of 20.

A mounting protrusion 132 is formed on one side of the spline shaft 130 so that the elastic member 140 that exerts the elastic force at one side thereof is not seated and detached.

Next, the operation of the present invention will be described.

When the elastic member 140 is inserted into one side of the frame 20 to be seated on the seating protrusion 132 of the spline shaft 150, the elastic member 140 is inserted into the through hole 20a from the outside of the frame 20. The spline shaft 150 is seated on the catching part 150 of the frame 20 in which the teeth 151 are formed by the elastic force of the elastic member 140, and in this state, the discharge wind direction control member 120. In order to assemble, first, the square shaft 121 of one side is inserted into the spline shaft 130, and the circular shaft 122 of the other side is inserted into the through hole 20a of the other side of the frame 20. To complete.

When the user wants to adjust the wind direction angle by adjusting the discharge wind direction control member 120, the user applies a force toward the spline shaft 130 to hold the teeth 131. After the tooth 150 is separated from the teeth 151 of the part 150, and the discharge wind direction adjusting member 120 is rotated in a direction desired by the user, the teeth 131 of the spline shaft 130 are held by the teeth of the catching part 150. 151) to be adjusted to the wind direction.

As described above, according to the discharge wind direction control device of the air conditioner according to the present invention, by providing an elastic member and a spline shaft on one side of the discharge wind direction control member, as well as the assembly of the discharge wind direction control member, the discharge wind direction angle When the teeth are adjusted, the teeth are engaged with each other to adjust the angle, so that the wear of the parts does not occur and the user can accurately adjust the desired angle.

Claims (2)

In the air conditioner provided in the discharge port of the frame inserted in the upper portion of the front panel and provided with a discharge wind direction control member for adjusting the direction of the air discharged through the discharge port, A square shaft formed on one side of the discharge wind direction control member; A spline shaft inserted into the square shaft and having teeth formed on one side thereof; A catching portion formed on an outer surface of the frame and having an inner circumferential surface, and caught by teeth of the spline shaft; And an elastic member for applying elasticity to the discharge wind direction control member at one side of the spline shaft so that the teeth of the spline shaft are caught by the locking portion. The method of claim 1, Discharge wind direction control apparatus of the air conditioner, characterized in that the mounting projection is formed on one side surface of the spline shaft so that the elastic member that acts on the elastic force on one side is not separated.