KR100315801B1 - Internal unit of air-conditioner - Google Patents

Abstract

Since the outdoor unit of the conventional air conditioner cannot effectively control the discharge air flow, the indoor circulation of the air is not properly performed at the time of cooling or heating, so that the effect of cooling and heating is reduced and the comfort is reduced.

A horizontal vane mounted at the discharge port to adjust the direction of the discharged air up and down using an angle change, and a plurality of left and right vanes mounted inside the horizontal vane and used to change the direction of the discharged air from side to side using the angle change. In the indoor unit of the air conditioner, the upper and lower wind direction guide is formed by a hinge connected to the side of the left and right vanes and formed in a structure capable of adjusting the angle in the vertical direction,

The up-and-down wind direction guides installed on the left and right vanes preset the direction in which the air is discharged so that the air flow is discharged to an appropriate position during cooling or heating, and thus relates to an indoor unit of the air conditioner in which effective cooling or heating is performed.

Description

Indoor unit of air conditioner {Internal unit of air-conditioner}

The present invention relates to an air conditioner for cooling or heating an interior of a room through heat exchange with a refrigerant, and in particular, by controlling the direction of airflow discharged during cooling or heating by using a vane structure installed in the discharge part, to effectively perform cooling or heating. It relates to an indoor unit of an air conditioner.

In general, the indoor unit of the air conditioner is installed at the rear of the suction grill as shown in FIG. 1 to allow heat exchange between the introduced air and the refrigerant, and the indoor air is introduced into the heat exchanged air. The fan 12 which discharges through a discharge port, and the vane 13 which changes in the discharge direction of the air discharged by being installed in the discharge port which heat-exchanged air discharges are comprised.

Here, in detail the vane structure installed in the discharge port is composed of a left and right vane 20 for adjusting the direction of the discharge air flow left and right and a horizontal vane 30 for adjusting the direction of the discharge air flow up and down as shown in FIG. It can be seen that. In addition, a plurality of the left and right vanes 20 is installed in the discharge port as shown in Figure 4, each of the left and right vanes 20 is rotated about the rotating shaft 22, but the whole is connected by the connecting rod 21 It is rotated integrally.

In the indoor unit of the conventional air conditioner configured as described above, the discharge airflow is converted up and down according to the rotation angle of the horizontal vanes, and the left and right vanes are rotated so that the airflow is not discharged to only one side.

The left and right vanes 20 change the discharge direction of the airflow to the left and right so that hot or cold air is not concentrated on one side, and the horizontal vane 30 changes the airflow direction up and down according to the nature of the discharged airflow to increase the indoor temperature. I control comfortably.

Therefore, during cooling, the horizontal vanes 30 are rotated as shown in FIG. 3A to send the cool air discharged from the indoor unit in the horizontal direction. Therefore, the cold air is lowered from the upper side of the room to improve the cooling effect of the room. However, despite the guidance of the air flow by the horizontal vane 30, since some of the cold air is discharged downward through the lower side of the horizontal vane 30, the cold air discharged to the lower side lowers the cooling effect.

During heating, the horizontal vanes 30 are rotated as shown in FIG. 3B to vertically discharge the warm air discharged from the indoor unit. Since the warm-up discharged vertically heats the room, the heating effect is improved as compared to the discharged upward. In this case, too, some of the warmth is horizontally discharged through the upper side of the horizontal vane 30, thereby reducing the heating effect.

As a result, the outdoor unit of the conventional air conditioner cannot effectively control the discharge air flow, so that the indoor circulation of the air is not properly performed at the time of cooling or heating, so that the effect of cooling and heating is reduced and the comfort is reduced.

In other words, when cooling, horizontal discharge is not done properly, so cold air is not circulated to the upper side by laying on the floor. When heating, vertical discharge is not done properly, so warm air is not circulated to the lower side as a gathering on the indoor ceiling. As a result, the air conditioning effect as required by the user cannot be obtained.

The present invention has been made to solve the above problems of the prior art, by pre-setting the direction of the air flow before adjusting the direction of the discharge air flow to the horizontal vane, by precisely controlling the direction of the discharge air flow during heating and cooling It is an object of the present invention to provide an indoor unit of an air conditioner to obtain an appropriate air conditioning effect.

1 is a configuration diagram showing the indoor unit structure of a general air conditioner,

2 is a detailed view showing a discharge part of a conventional indoor unit;

Figure 3a is a view showing the air flow during the cooling operation in the conventional discharge portion,

Figure 3a is a view showing the air flow during the heating operation in the conventional discharge portion,

Figure 4 is a view showing the left and right vanes in the conventional discharge portion,

5 is a configuration diagram showing the left and right vanes of the discharge unit in the indoor unit of the air conditioner according to the present invention;

Figure 6a is a view showing the air flow during the cooling operation in the discharge portion of the present invention,

Figure 6b is a view showing the air flow during the heating operation in the discharge portion of the present invention,

7A and 7B are views illustrating an angle control method of the up-and-down wind guide, which is a main component of the present invention.

<Explanation of symbols for the main parts of the drawings>

51: left and right vanes 52: connecting rod (left and right vanes)

53: axis of rotation (left and right vanes) 58: horizontal vane control motor

59: horizontal vane 61: up and down wind direction guide

62: connecting rod (up and down wind direction guide) 63: hinge portion

65: up and down direction guide control motor 70: link

The present invention for achieving the above object is a horizontal vane mounted to the discharge port and using the angle change to adjust the direction of the discharge air up and down, and the inside of the horizontal vane and the angle of the discharge air by using the angle change In the indoor unit of the air conditioner including a plurality of left and right vanes to change from side to side, characterized in that it is provided with a vertical wind direction guide is hinged to the side of the left and right vanes and formed in a structure capable of adjusting the angle in the vertical direction .

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The indoor unit of the air conditioner of the present invention has a horizontal vane (59) for discharging part is mounted to the discharge port as shown in Figs. 5, 6A and 6B and adjusts the direction of discharge air up and down by using angle change, and A plurality of left and right vanes 51 mounted inside the horizontal vanes 59 to change the direction of the discharged air from side to side by using an angle change and hinge 63 connected to the side surfaces of the left and right vanes 51, It consists of a vertical wind direction guide 61 formed in a structure capable of adjusting the angle in the vertical direction.

The left and right vanes 51 are rotated about the rotation shaft 52, respectively, and have a connecting rod 52 connecting the plurality of left and right vanes 51 to rotate at the same angle, and the up and down wind direction guide 61 is provided. Also provided with separate connecting rods 62 to be connected to each other to be rotated at the same vertical angle.

Here, the vertical direction of the upper and lower wind direction guide 61 is changed in accordance with the change in the angle of the horizontal vane 59, as shown in Figure 7a to adjust the vertical angle in conjunction with the angle of the horizontal vane (59) It is connected to the control motor 58 of the horizontal vane 59 by the link 70 so as to. Of course, as shown in Figure 7b may be provided with a control motor 65 of its own so that it can be controlled irrespective of the change of the angle of the horizontal vane (59).

The indoor unit of the air conditioner according to the present invention configured as described above has a vertical vane guide installed on the left and right vanes during cooling or heating to preliminarily set the discharge direction of the airflow, and then the horizontal vanes are discharged in the vertical or horizontal directions.

The left and right vanes 51 mounted on the inner part of the discharge port change the direction of the discharged air flow left and right, and the up and down wind direction guide 61 coupled to the hinge 63 by the left and right vanes 51 is according to the type of air flow. The angle is changed to pre-induce the airflow up or down. At this time, the left and right vanes 51 are integrated by the connecting rods 52 and rotated at the same angle, and the upper and lower wind guides 61 coupled to the left and right vanes 51 are also at the same angle by the other connecting rods 62. Is rotated.

At the time of cooling, as shown in FIG. 6A, the up and down wind direction guide 61 guides the direction of the air flow discharged to the discharge port in advance upwards, and the air flow guided by the up and down wind direction guide 61 is returned to the horizontal vane 59. Is discharged in the horizontal direction. Therefore, the cooling effect is improved because the air is cooled after being discharged in the horizontal direction and descending.

At the time of heating, as shown in FIG. 6B, the up and down wind direction guide 61 guides the direction of the air flow discharged to the discharge port downward, and the horizontal vane 59 moves the air flow guided by the up and down wind direction guide 61 in the vertical direction. Since it is induced again, warm air is discharged in the vertical direction. Since the air discharged in the vertical direction is light in density, the room is heated while being raised, thereby improving the heating effect in winter.

Here, the up and down wind direction guide 61 is rotated in conjunction with the control motor 58 for adjusting the angle of the horizontal vane 59, or provided with a separate control motor 65 and the rotation of the horizontal vane 59 May be rotated independently. FIG. 7A illustrates that the vertical wind direction guide 61 is connected to the link 70 so as to be interlocked with the control motor 58 of the horizontal vane 59. In FIG. 7B, the vertical wind direction guide 61 is the horizontal vane 59. It is shown to have a separate control motor to be rotated irrespective of.

As described above, the indoor unit of the air conditioner of the present invention sets the direction in which the up-and-down wind direction guides installed in the left and right vanes are discharged in accordance with the nature of the airflow so that the airflow is discharged to an appropriate position during cooling or heating. There is an advantage to be performed.

Claims (3)

A horizontal vane mounted at the discharge port to adjust the direction of the discharged air up and down using an angle change, and a plurality of left and right vanes mounted inside the horizontal vane and used to change the direction of the discharged air from side to side using the angle change. In the indoor unit of the air conditioner to The air conditioner of the air conditioner, characterized in that the hinge is connected to the sides of the left and right vanes and is formed to be able to adjust the angle in the vertical direction, and connected to the connecting rods so as to be rotated at the same vertical angle. Indoor unit. The method of claim 1, The up-and-down wind direction guide the indoor unit of the air conditioner, characterized in that connected to the control motor of the horizontal vane so that the vertical vane is adjusted in conjunction with the angle of the horizontal vane. The method of claim 1, The up-and-down wind direction guide the indoor unit of the air conditioner, characterized in that provided with a control motor of the independent so as to be controlled irrespective of the change of the angle of the horizontal vane.