KR100239490B1 - Airconditioner - Google Patents

Abstract

The present invention relates to an air conditioner, in which the distance between the inlet louvers of the intake port where air is sucked in and the outlet louver of the discharge port through which air is discharged are adjusted according to whether the device is used in a cooling mode or an air purifying mode. This contributes to the improvement of air purification efficiency during purification.

To this end, the present invention has a blowing fan (3) is installed to rotate under the driving force in the main body 1, the outside air is rotated in the front lower portion of the main body 1 when the blowing fan (3) the main body (1) A suction port 4 is formed to be sucked into the inside, and the suction port is provided with a plurality of suction port louvers 5 to form an external design, and inside the main body 1, the air sucked into the main body is filled with heat by heat exchange. A heat exchanger 8 is installed to convert the air, and an outlet 9 is formed in the upper part of the front surface of the main body 1 so that cold air heat exchanged by the heat exchanger 8 is discharged to the outside of the main body 1. In addition, the discharge port is provided with a plurality of discharge port louvers 10 to achieve the appearance design, the inlet motor 11 is attached to generate the forward and reverse driving force on the lower inner side of the main body 1, the inlet motor Inhale The inlet drive gear 12 is axially coupled to receive the driving force of the motor 11 to reversely rotate, and the inlet moving plate is vertically moved up and down by receiving the rotational force of the inlet drive gear 12 at the lower part of the front surface of the main body 1. 13) and fixing the lower end of the inlet antenna 14 to both sides of the inlet moving plate 13 so as to be folded or unfolded in accordance with the vertical movement of the inlet moving plate. Fixing the upper end of the antenna 14, respectively, and fixed to both ends of each of the inlet louvers (5) provided in the inlet (4) to each of the inlet port, and generates a forward and backward driving force inside the upper portion of the main body (1) The discharge port motor 15 is attached to the discharge port motor, and the discharge port drive gear 16 is axially coupled to the discharge motor to receive the driving force of the discharge port motor 15, and the discharge port drive gear is formed on the front surface of the main body 1. 16) The discharge port moving plate 17 is installed to vertically move up and down by the rotational force, and the lower end of the discharge port antenna 18 is disposed on both sides of the discharge port moving plate 17 so as to be folded or unfolded according to the vertical movement of the discharge port moving plate. The upper end of each discharge antenna 18 is fixed to the main body 1, and both ends of each discharge louver 10 provided in the discharge port 9 are respectively fixed to the discharge antenna.

Description

Air conditioner

The present invention relates to an air conditioner, and more particularly, to adjust an interval between each intake louver of an intake port through which air is inhaled and between each outlet louver of an outlet through which air is discharged to improve air purification efficiency during air purification. To contribute.

In general, an air conditioner is an air conditioner that cools the room by changing the hot air of the room into cold air by heat exchange. In the related art, as shown in FIGS. Blower fan (3) is installed to rotate under the driving force of the main body, and the inlet (4) is provided in the lower part of the front surface of the main body (1) so that indoor air is sucked into the main body (1) during rotation of the blower fan (3). It is formed, the inlet port is provided with a plurality of inlet louvers (5) to maintain a constant interval to achieve an appearance, the inner body (1) of the inlet louver to filter out foreign matter in the air to be sucked primarily A filter 6 is installed, and an electrostatic precipitator 7 is installed at the rear of the filter to collect foreign matter such as fine dust which is not filtered from the filter 6 among the foreign matter in the air sucked in. The heat exchanger 8 is installed between the blower fan 3 and the suction port 4 in the main body 1 to convert the sucked air into cold air by heat exchange. The discharge port 9 is formed to discharge the cold air changed by the heat exchanger 8 to the outside, and the discharge port is provided with a plurality of discharge port louvers 10 spaced apart at regular intervals to form an appearance. .

Therefore, when the user selects the cooling mode while the air conditioner is installed with the main body 1 supported on the floor in the room, the fan motor 2 is driven while receiving the control signal from the controller to operate the blower fan 3. Since the air is rotated, the air in the room is sucked into the main body 1 through the gap between the inlet louvers 5 of the inlet 4 formed in the lower part of the front part of the main body 1, and then the discharge port 9 formed in the upper part of the front part of the main body 1 Is discharged back into the room through the interval between the discharge port louvers (10) of the outlet, wherein the heat exchanger (8) installed inside the main body (1) is supplied with a low-temperature, low-pressure gas refrigerant by a separate outdoor unit (not shown) The air sucked into the main body 1 is changed into cold air in the process of passing through the heat exchanger 8, and accordingly, the air is sucked through the gap between the respective discharge port louvers 10 of the discharge port 9. Air discharged to Since cold air fell below a certain temperature will be the room is air-conditioned.

On the other hand, when the air in the room is sucked into the main body 1 through the interval between the respective inlet louvers 5 of the inlet 4 in accordance with the rotation of the blower fan 3 in the above-described action, Relatively large particles of dust and the like are filtered out by the filter 6 installed inside the inlet louver 5, and fine dust and the like that have passed through the filter are continuously collected by the electrostatic precipitator 7, so that the discharge port ( Cold air discharged through the gap between each of the discharge port louvers 10 of 9) is clean air with almost no foreign matter such as dust.

In addition, when the user selects the air purifying mode, the air blowing fan 3 rotates in the same manner as in the case of selecting the cooling mode described above, so that each inlet louver 5 of the inlet port 4 in which air in the room is formed in the main body 1 is provided. It is sucked into the main body 1 through a gap therebetween and then discharged back into the room through a gap between the ejection openings louvers 10 of the ejection opening 9, in which case the heat exchanger 8 installed inside the main body 1 Does not perform heat exchange, so only air purification is performed.

However, such an air conditioner is a state in which it is impossible to control the interval between the respective inlet louvers of the inlet in which air is sucked into the main body and the interval between the respective outlets of the louver of the outlet where the heat exchanged cold air is discharged to the outside of the main body. The function of the filter and the precipitator reaches its limit early in view of the limited ability of purifying the air sucked by the filter and the precipitator as more air than necessary is drawn into the main body at the same time when the device is operated in the mode. There was a problem that eventually reduces the air purification efficiency.

The present invention has been made in order to solve the above-described problems, the interval between the inlet louver of the intake port in which air is inhaled and the outlet of the discharge port louver in which air is discharged depending on whether the device is used in a cooling mode or an air purification mode. Its purpose is to make the interval adjustable so that it can contribute to the improvement of air purification efficiency, especially during air purification.

According to an aspect of the present invention for achieving the above object, a blowing fan is installed to rotate under the driving force inside the main body, the inlet is formed in the lower front of the main body so that the outside air is sucked into the main body when the blowing fan is rotated The intake port is provided with a plurality of intake louvers to achieve an external design, and a heat exchanger is installed inside the main body to convert the air sucked into the main body into cold air by heat exchange. The discharge port is formed so that the cold air heat exchanged by the air is discharged to the outside of the main body, the discharge port is provided with a plurality of discharge port louvers to achieve the appearance design; An inlet motor is attached to the lower inner side of the main body to generate the forward and reverse driving force, and the inlet motor is axially coupled with the inlet driving gear to forward and reverse rotation under the driving force of the inlet motor. The suction inlet moving plate is installed to vertically move up and down, and the lower end of the inlet antenna is fixed to both sides of the inlet moving plate so as to be folded or unfolded according to the vertical movement of the inlet moving plate. Fixing the upper end of each of the inlet antenna, the upper end of each of the inlet louver fixed to both ends of each inlet louver provided in the inlet, respectively, the upper inside of the main body is attached to the outlet motor to generate the forward and reverse driving force, the outlet motor Discharged to forward and reverse rotation under the driving force of the discharge port motor The drive gear is axially coupled, and a discharge port moving plate is installed on the front upper portion of the main body so as to vertically move up and down by the rotational force of the discharge port drive gear, and the discharge port moving plate is folded or unfolded according to the vertical movement of the discharge port moving plate. On both sides, the lower ends of the discharge antennas are fixed to the main body, and the upper ends of the discharge antennas are respectively fixed to the main body, and the air conditioners provided by fixing both ends of each of the discharge port louvers provided in the discharge ports are respectively provided at the upper ends of the nodes of the discharge antennas. .

1 is a perspective view showing a conventional air conditioner

Figure 2 is a longitudinal cross-sectional view showing a conventional air conditioner

3 is an exploded perspective view showing main parts of the present invention an air conditioner;

Figure 4a is a longitudinal sectional view showing an air conditioner of the present invention, a state diagram used in the cooling mode

Figure 4b is a longitudinal sectional view showing an air conditioner of the present invention, a state diagram used in the air purification mode

FIG. 5 is a cross-sectional view taken along the line A-A of FIG. 4A

FIG. 6 is a cross-sectional view taken along the line B-B in FIG. 4A

Explanation of symbols for main parts of the drawings

1. Body 4. Inlet

9. Outlet port 10. Outlet louver

11. Inlet motor 12. Inlet drive gear

13. Inlet moving plate 14. Inlet antenna

15. Outlet port motor 16. Outlet port drive gear

17. Discharge port moving plate 18. Discharge port antenna

19. Inlet vents 20. Inlet racks

21. Inlet guide piece 22. Inlet catch piece

23. Outlet port opening 24. Outlet rack

25. Discharge port guide piece 26. Discharge port locking piece

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

3 is an exploded perspective view showing main parts of the air conditioner of the present invention, FIGS. 4A and 4B are longitudinal cross-sectional views of the air conditioner of the present invention, FIG. 5 is a cross-sectional view taken along line AA of FIG. 4A, and FIG. 6 is a BB of FIG. 4A. As a cross-sectional view, the component which performs the same function as the conventional component demonstrated previously among the components of this invention is abbreviate | omitted, and only the same number as the conventionally assigned number is attached to drawing.

Hereinafter, the main components of the present invention will be described.

An inlet motor 11 is attached to the inside of the lower part of the main body 1 to generate a forward and reverse driving force, and the inlet motor is axially coupled with the inlet driving gear 12 so as to forward and reverse rotation under the driving force of the inlet motor 11. The suction port moving plate 13 is installed at the lower portion of the front surface of the main body 1 so as to vertically move up and down by receiving the rotational force of the suction port drive gear 12, and the suction port moves to be folded or unfolded according to the vertical movement of the suction port moving plate. The lower end of the inlet antenna 14 is fixed to both sides of the plate 13, and the upper end of the inlet antenna 14 is fixed to the body 1, respectively, and both ends of each inlet louver 5 in the inlet 4. Is fixed to the upper end of each node of the inlet antenna 14, and the discharge port motor 15 is attached to the upper inner side of the main body 1 to generate the forward and reverse driving force, the discharge port motor of the discharge port motor 15 Driving force The discharge port drive gear 16 is axially coupled to reversely rotate, and the discharge port moving plate 17 is installed on the upper portion of the front surface of the main body 1 so as to vertically move up and down under the rotational force of the discharge port drive gear 16. The lower end of the discharge port antenna 18 is fixed to both sides of the discharge port moving plate 17 so as to be folded or unfolded along the vertical movement of the discharge port moving plate, and the upper end of the discharge port antenna 18 is fixed to the main body 1, respectively. Both ends of the discharge port louvers 10 in the discharge port 9 are respectively fixed to the upper ends of the nodes of the respective discharge port antennas 18.

In order to install the inlet moving plate 13 to vertically move up and down by receiving the rotational force of the inlet drive gear 12 in the lower part of the front surface of the main body 1, a part of the inlet drive gear 12 is mounted on the main body 1. The inlet through-hole 19 is formed to be exposed to the outside, and the inlet rack 20 is vertically formed on the inner surface of the inlet moving plate 13 so as to be engaged with the inlet driving gear 12, and the main body 1 A pair of inlet guide pieces 21 are formed in the vertical direction on the front surface thereof, and the inlet locking pieces 22 are vertically inserted into the inlet guide plates 21 so as to be guided through the respective inlet guide pieces 21. In the direction.

In addition, a part of the discharge port drive gear 16 is external to the main body 1 in order to install the discharge port moving plate 17 so as to vertically move up and down under the rotational force of the discharge port drive gear 16 on the front surface of the main body 1. The discharge port through-hole 23 is formed to be exposed to the inner surface of the discharge port moving plate 17, and the discharge port rack 24 is formed in the vertical direction to be engaged with the discharge port drive gear 16. On the front surface, a pair of discharge port guide pieces 25 are formed in the vertical direction, and an inner surface of the discharge port moving plate 17 is inserted into each of the discharge port guide pieces 25 to guide the discharge port catching pieces 26 in the vertical direction. Form.

According to the present invention configured as described above, when the inlet port moving plate 13 is vertically moved downward, as shown in FIG. 4A, the entire surface of the inlet port 4 is opened, and the outlet port moving plate 17 is lowered. In this state, the cooling operation is the same as the conventional operation described above, and thus the air flow is vertically completed. The process until purification is performed in detail is as follows.

When the user selects the air purifying mode in the state as shown in FIG. 4A, the inlet driving gear 12 axially coupled to the inlet motor is clockwise in the drawing as the inlet motor 11 attached to the main body 1 is driven. And the discharge port drive gear 16 axially coupled to the discharge port motor rotates clockwise as shown in the drawing as the discharge port motor 15 attached to the main body 1 is driven at the same time. The discharge port moving plate 17 closes the suction port 4 by an area proportional to the vertical moving distance while vertically moving upward by a predetermined distance under the rotational force of the suction port drive gear 12. The discharge port 9 is closed by an area proportional to the vertical moving distance while vertically moving upward by a predetermined distance under the rotational force of.

In the above description, a process of vertically moving the inlet moving plate 13 according to the clockwise rotation of the inlet driving gear 12 will be described. A part of the inlet driving gear 12 is formed in the main body 1 through the inlet opening ( 19, the suction port moving plate 13 is clockwise rotated by the suction port driving gear 12 as it is exposed to the outside and is engaged with the suction port rack 20 formed vertically on the inner surface of the suction port moving plate 13. Received through the inlet rack 20 to move vertically to the upper, in this case a pair of inlet guide pieces 21 formed in a vertical direction on the front of the main body 1 perpendicular to the inner surface of the inlet moving plate 13 Since the pair of suction inlet catching members 22 formed in the respective directions are hung therein, it is understood that each inlet catching member 22 is guided to each inlet guide piece 21 when the inlet moving plate 13 is vertically moved upward. .

In addition, the process of vertically moving the discharge port moving plate 17 according to the clockwise rotation of the discharge port drive gear 16 will be described. A part of the discharge port drive gear 16 is formed in the main body 1 through the discharge hole 23. The discharge port shift plate 17 rotates the clockwise rotational force of the discharge port drive gear 16 as it is exposed to the outside and engaged with the discharge rack 24 formed in the vertical direction on the inner surface of the discharge port shift plate 17. Received through the discharge port rack 24 and vertically moved upwards, in this case a pair of discharge guides 25 formed in the vertical direction on the front of the main body 1 in the vertical direction on the inner surface of the discharge port moving plate 17 Since the pair of discharge port catching pieces 26 formed therein are sandwiched and fastened, it is understood that each discharge port catching piece 26 is guided to each discharge port guide piece 25 when the discharge port moving plate 17 is vertically moved upward.

On the other hand, if the suction port moving plate 13 is vertically moved upward, a pair of suction port antennas 18 fixed at both sides of the suction port moving plate and the upper end fixed to the main body 1 are respectively the suction port moving plate 13. As the distance between the inlet louvers (5) fixed at both ends of the inlet antenna top is narrowed by being folded in proportion to the upper moving distance of the upper part, the discharge port moving plate (17) moves upwards vertically. Each of the ejection openings is folded by a pair of ejection opening antennas 18 fixed to both sides of the ejection opening moving plate and fixed at the upper end to the main body 1 in proportion to the upper moving distance of the ejection opening moving plate 17. Since the interval between each discharge port louvers 10 fixed at both ends of the node 18 of the antenna 18 is narrowed, the suction port 4 through which air is sucked in and the discharge port 9 through which air is discharged are narrowed as shown in FIG. 4B. The amount of inlet air and outlet air is significantly reduced when the cooling mode is selected.

When the device is operated in the above air purifying mode and then operated again in the cooling mode, the inlet motor 11 and the outlet motor 15 are driven back again, so that the distance between each inlet louver 5 is increased again and each outlet louver ( Since the interval between 10) is increased again, the amount of intake air through the inlet 4 and the amount of discharged air through the outlet 9 can be understood to be significantly increased in the air purifying mode.

As described above, the present invention increases the spacing between the inlet louvers of the inlet port through which air is sucked when the device is used in the cooling mode, and the outlet louver between the discharge port through which the air is discharged, and when air is used in the air purifying mode. Since the interval between the inlet louvers of the inlet and the outlet louvers of the discharge port through which air is discharged is reduced, in particular, the air purifying efficiency is improved because the filter and the electrostatic precipitator are reheated for a long time as the proper amount of air is sucked in during air purification. It is effective.

Claims (4)

A blowing fan is installed inside the main body so as to be rotated by a driving force, and an inlet is formed in the lower part of the front of the main body so that outside air is sucked into the main body when the blowing fan is rotated. A louver is provided, and a heat exchanger is installed inside the main body to convert the air sucked into the main body into cold air by heat exchange, and a cold air heat exchanged by the heat exchanger is discharged to the outside of the main body in the upper part of the main body. An ejection opening is formed, and the ejection opening is provided with a plurality of ejection opening louvers to achieve an appearance design; An inlet motor is attached to the lower inner side of the main body to generate the forward and reverse driving force, and the inlet motor is axially coupled with the inlet driving gear to forward and reverse rotation under the driving force of the inlet motor. The suction inlet moving plate is installed to vertically move up and down, and the lower end of the inlet antenna is fixed to both sides of the inlet moving plate so as to be folded or unfolded according to the vertical movement of the inlet moving plate. Fixing the upper end of each of the intake antenna, the air conditioner, characterized in that by fixing both ends of each inlet louver provided in the inlet respectively. The method of claim 1, The inlet hole is formed in the main body so that a part of the inlet driving gear is exposed to the outside, and an inlet rack is vertically formed on the inner surface of the inlet moving plate to engage the inlet driving gear, and a pair of inlet guides are provided on the front of the main body. A piece is formed in the vertical direction, and the inlet moving plate is vertically moved up and down by receiving the rotational force of the inlet driving gear by forming the inlet engaging piece in the vertical direction so that the inner surface of the inlet moving plate is inserted into and guided to each of the inlet guide pieces. An air conditioner, characterized in that installed in the lower front of the main body. A blowing fan is installed inside the main body so as to be rotated by a driving force, and an inlet is formed in the lower part of the front of the main body so that outside air is sucked into the main body when the blowing fan is rotated. A louver is provided, and a heat exchanger is installed inside the main body to convert the air sucked into the main body into cold air by heat exchange, and a cold air heat exchanged by the heat exchanger is discharged to the outside of the main body in the upper part of the main body. An ejection opening is formed, and the ejection opening is provided with a plurality of ejection opening louvers to achieve an appearance design; A discharge port motor is attached to the upper inside of the main body to generate the forward and reverse driving force, and the discharge port motor is axially coupled to the discharge port motor to receive the driving force of the discharge port motor, and the rotational force of the discharge port driving gear on the upper part of the main body. The discharge port moving plate is installed to vertically move up and down, and the lower end of the discharge port antenna is fixed to both sides of the discharge port moving plate so as to be folded or unfolded according to the vertical movement of the discharge port moving plate. And respectively fixing both ends of each of the discharge port louvers provided in the discharge port to the top of each node of the discharge hole antennas. The method of claim 3, wherein A discharge hole is formed in the main body so that a part of the discharge port driving gear is exposed to the outside, and a discharge port rack is formed in a vertical direction on the inner surface of the discharge port moving plate to be engaged with the discharge port driving gear. And the discharge port engaging plate is vertically formed on the inner surface of the discharge port moving plate so as to be guided by being inserted into the respective discharge port guide pieces so that the discharge port moving plate vertically moves up and down under the rotational force of the discharge port drive gear. Air conditioner, characterized in that installed on the front upper portion.

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