KR19980063223U - Discharge port opening and closing device of air conditioner - Google Patents

Abstract

The present invention relates to a discharge opening and closing device of the air conditioner, and more particularly, to the discharge opening by installing an opening and closing device that automatically closes the discharge opening whenever the air conditioner is not in use in the discharge port discharged cold air heat exchanged in the evaporator The present invention relates to a discharge opening and closing device of an air conditioner to block incoming contaminated dust and foreign matter in advance.

In particular, the present invention, the refrigerant condensed in the condenser of the outdoor unit is expanded while passing through the capillary inside the indoor unit main body 1 having the discharge port 2 and the suction port 3 is formed in the upper and lower ends and circulated toward the evaporator of the indoor unit main body 1 In a conventional air conditioner that absorbs the surrounding heat and is discharged to the room by the circulation fan 4, it is installed in the longitudinal direction on the front surface of the discharge port 2 formed at the upper end of the indoor unit main body 1, and has a predetermined tensile force. And several louvers 10 rotated according to the repulsive force; A link 50 having the louvers 10 connected to each other such that the louvers 10 are rotated at the same time according to the tensile force and the repulsive force; An elastic member 20 interposed at the upper end of the louver 10 so that the louver 10 has a tensile force; An eccentric cam 30 rotatably installed by the repulsive force by the eccentric rotation of the louver 10; The eccentric cam 30 is characterized by consisting of a stepping motor 40 to provide a rotational force.

Description

Discharge port opening and closing device of air conditioner

The present invention relates to a discharge opening and closing device of the air conditioner, and more particularly, to the discharge opening by installing an opening and closing device that automatically closes the discharge opening whenever the air conditioner is not in use in the discharge port discharged cold air heat exchanged in the evaporator The present invention relates to a discharge opening and closing device of an air conditioner to block incoming contaminated dust and foreign matter in advance.

In general, an air conditioner is manufactured separately from an indoor unit provided with an evaporator and an outdoor unit provided with a condenser and a compressor.

As shown in FIG. 1, the indoor unit of such an air conditioner is provided with an indoor unit main body 1 having a rectangular cross section, and a circulation fan 4 rotated by a motor at an upper portion thereof, and an evaporator directly under the same. (5) is provided.

The evaporator (5) is a gas liquid mixed refrigerant flows therein, and absorbs the surrounding heat in the process of evaporating the liquid refrigerant of the refrigerant to perform a heat exchange process that the room temperature is lowered and the refrigerant itself is a high temperature .

In addition, the drip tray 6 is provided in the vertical lower portion of the evaporator 5, a suction port 3 and a filter 7 for suctioning the indoor air at the lower end of the indoor unit main body 1 is formed, the main body 1 The discharge port 2 is formed in front of the circulation fan 4 at the upper end so that the air sucked through the suction port 3 is cooled through the evaporator 5 and then discharged into the room through the discharge port 2.

When the indoor unit of the conventional air conditioner configured as described above is powered and power is generated in the motor, the circulation fan 4 is rotated by receiving this power, and thus, the indoor air is inside the indoor main body 1 along the suction port 3. Flows into.

At this time, after the dust is filtered through the filter 7 behind the suction port 3, the indoor air is cooled while passing through the evaporator (3). That is, the low-temperature low-pressure refrigerant flows inside the evaporator 5, and the refrigerant condensed at low temperature and low pressure in a condenser of an outdoor unit (not shown) is expanded while passing through a capillary tube (not shown) to form a refrigerant in a gas liquid mixed state. When the furnace circulates toward the evaporator 5 of the indoor unit main body 1, the refrigerant in the double liquid state evaporates and absorbs the surrounding heat.

Therefore, the air cooled as described above is discharged into the room through the discharge port 2, thereby cooling the room coolly.

Meanwhile, the conventional indoor unit keeps the discharge port 2 open at all times regardless of the use of the air conditioner. In particular, when the indoor unit is not in use, indoor dust and foreign matter are introduced into the indoor main body through the discharge port, and thus, directly behind the same. Accumulated on the surface of the evaporator installed in the to shorten the life of the device, there was a problem that the accumulated dust is discharged back to the room to contaminate the indoor air.

In addition, when the indoor unit is used in a state in which dust is accumulated on the surface of the evaporator, there is another problem that the heat exchange efficiency is lowered as these dusts form an insulating layer.

The present invention was created in view of the above problems, and its purpose is to allow the discharge port to be closed at the source when the indoor unit is not in use, thereby preventing the inflow of indoor dust to prevent dust accumulation on the surface of the evaporator and preventing heat exchange. It is to provide a discharge opening and closing device of the air conditioner so as not to cause.

In order to achieve the above object, the present invention expands the refrigerant condensed in the condenser of the outdoor unit through the capillary tube to the inside of the indoor main body in which the discharge port and the suction port are formed at the upper and lower ends, and circulates toward the evaporator of the indoor unit to absorb the surrounding heat. A normal air conditioner discharged into a room by a circulation fan, comprising: a plurality of louvers installed in a longitudinal direction on a front surface of a discharge port formed at an upper end of the indoor unit, and rotated according to a predetermined tensile force and repulsive force; A link connecting the louvers with each other so that the louvers are rotated at the same time according to the tension and repulsive force; An elastic member interposed at an upper end of the louver so that the louver has a tensile force; An eccentric cam installed to rotate the louver with repulsive force by eccentric rotation; It is characterized by a stepping motor for providing a rotational force to the eccentric cam.

1 is a side cross-sectional view of a general air conditioner.

2 is an exploded perspective view of an air conditioner showing an embodiment of the present invention;

3 is a cross-sectional view showing a discharge opening state of the present invention air conditioner;

4 is a cross-sectional view showing a discharge port closed state of the present invention air conditioner;

Explanation of symbols for the main parts of the drawings

10-louver, 20-torsion spring,

30-eccentric cam, 40-stepping motor.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention in detail as follows.

Figure 2 is an exploded perspective view of an air conditioner showing an embodiment of the present invention, Figure 3 is a cross-sectional view showing the discharge port open state of the present invention air conditioner, Figure 4 is a discharge port closed state of the present invention air conditioner One cross section. The same technical elements as the prior art will be described with the same reference numerals.

The air conditioner of the present invention is provided with an indoor main body (1) of a rectangular parallelepiped having a discharge port (2) and an inlet port (3) formed in the upper and lower portions, respectively, and rotated by a motor at the lower end of the discharge port (2) inside the indoor main body (1). The circulation fan 4 is installed.

In addition, the evaporator 5 is installed at the lower end of the circulation fan 4 so that the indoor air sucked into the suction port 3 inside the indoor main body 1 is heat-exchanged and then cooled and discharged into the room along the discharge port 2. do. As described above with respect to the conventional configuration, the present invention is a louver 10, a link 50, an elastic member 20, the eccentric cam (10) to properly open or close the discharge port 2 formed on the upper part of the indoor base (1) ( 30), and the opening and closing device provided with the stepping motor 40 is additionally installed.

In other words, a plurality of rectangular louvers 20 having a predetermined size are provided in the discharge holes 2 formed on the upper part of the indoor main body 1, and fixed to the inside of the indoor main body 1 so that several louvers 20 are discharge ports. (2) provided with a fixed shaft (10a) to be installed hanging in the longitudinal direction. Here, the louver 20 is provided to be rotated by the repulsive force on the tension force or the eccentric cam 30 by the elastic member 20 to be described later, and the louver 10 is rotated at the same time according to the tensile force and the repulsive force. Is fixed by the link (50).

On the other hand, the elastic member 20 is provided to provide a strong tensile force to the louver 10, the elastic member 20 is one side of the discharge port 2 in place, the other side is suspended in the upper end of the louver (10) louver with a strong tensile force 10 moves in the direction of closing the discharge port 2.

In addition, the eccentric cam 30 is installed inside the louver 10 to exert a repulsive force from the inside of the louver 10 to the outside, that is, the discharge port 2 opening direction, the eccentric cam 30 is an indoor main body ( In combination with the stepping motor 40 installed in the internal place of 1) to provide the rotational force of the stepping motor 40.

The present invention constructed as described above, first, when the air conditioner is not in use, the louvers 20 are closed in a state where several louvers 20 are vertically erected. Thereafter, when cooling is started by the operation start switch operation, a forward rotation signal is applied to the stepping motor 40 to rotate the eccentric cam 30 by the driving of the stepping motor 40. Accordingly, the eccentric cam 30 is moved in a clockwise direction. At this time, the louver 20 moves from a vertical state to a horizontal state by applying a repulsive force pushing from the inside of the louver 10 to the outside by the rotation of the eccentric 30. In the end, the discharge port 2 is opened as shown in FIG.

Thus, as the discharge port 2 is opened, the indoor unit main body 1 becomes usable, and the circulation fan 4 is rotated, and the indoor air flows in through the suction port 3 and then passes through the evaporator 5. Through a series of cooling cycles, the indoor hot air and the low-temperature refrigerant inside the evaporator (5) exchange heat, and the indoor air is cooled, and the cooled cold is discharged into the room along the open discharge port (2) to cool the room coolly. do.

Thereafter, when the cooling operation is stopped, the reverse rotation signal is applied to the stepping motor 30 to rotate the eccentric cam 30 by the driving of the stepping motor 30. Accordingly, the counterclockwise direction is moved in accordance with the rotation of the eccentric cam 30. At this time, the repulsive force pushing from the inside of the louver 10 to the outward direction by the eccentric rotation is released, and the tensile force by the elastic member 20 is reduced to the louver 10. The louver 20 is moved from the vertical state to the horizontal state as it is applied to the upper end of the end to close the discharge port 2 as shown in FIG.

Therefore, since the discharge port 2 is placed in the closed state by the louver 20, when the indoor main body 1 is not used, dust or the like is not introduced into the interior through the discharge port 2, so that the surface of the evaporator 5 is closed. Dust does not accumulate in

As described above, the present invention properly opens and closes the front of the discharge port through which cold wind heat exchanged from the evaporator is discharged into the room, thereby blocking contaminants and dust when not in use, thereby making the interior of the indoor unit clean at all times, thereby reducing dust accumulation on the surface of the evaporator. There is a useful effect that also contributes to prevention and consequently an increase in heat exchange efficiency.

The above description is only one embodiment of the present invention, and any number of changes and modifications can be made within the scope of the present invention.

Claims (1)

The refrigerant condensed in the condenser of the outdoor unit is expanded while passing through a capillary tube to the inside of the indoor unit main body 1 having the discharge port 2 and the suction port 3 formed at the upper and lower ends, and circulated toward the evaporator of the indoor unit main body 1 to absorb the surrounding heat. In the conventional air conditioner discharged into the room by the circulation fan 4, it is installed in the longitudinal direction on the front of the discharge port (2) formed on the upper end of the indoor unit main body 1, and rotated in accordance with a predetermined tensile force and repulsive force Several louvers 10; A link 50 having the louvers 10 connected to each other such that the louvers 10 are rotated at the same time according to the tensile force and the repulsive force; An elastic member 20 interposed at the upper end of the louver 10 so that the louver 10 has a tensile force; An eccentric cam 30 rotatably installed by the repulsive force by the eccentric rotation of the louver 10; Discharge port opening and closing device of the air conditioner, characterized in that consisting of a stepping motor 40 to provide a rotational force to the eccentric cam (30).