KR100442393B1 - Ceiling mounted type air conditioner for heating and cooling - Google Patents

Abstract

The present invention relates to a ceiling type air conditioner for both heating and cooling, comprising: an inlet and a first to fourth portions formed along the circumferential direction of the inlet at right angles to and around the inlet to allow air to be sucked into the center of the bottom surface; A casing having a discharge port and embedded in the ceiling; A blowing fan configured to provide air sucked through the suction port into the interior of the casing through the first to fourth discharge ports; An indoor heat exchanger disposed in the casing along a circumferential direction of the blowing fan; First to fourth louvers arranged to open and close each discharge port with a rotating shaft which is biased toward one side along the width direction and protrudes along the longitudinal direction; First and second connecting members each of which is rotatably coupled to both ends of the two shafts adjacent to each other and disposed at right angles to each other; First and second driving motors for forward and reverse driving the first and second connection members, respectively; An operation mode selection unit for selecting any one of a heating mode and a cooling mode; Control unit for controlling the first and second driving motors to open the discharge port when the pair of louvers connected by any one of the first and second connection members when the heating mode is selected, the other pair of louvers open the discharge port Characterized in that it comprises a. Accordingly, there is provided a ceiling and air-conditioning combined air conditioner capable of forming different discharge airflows during cooling and heating, and increasing the earth output of the heating airflow during heating to reach the heating airflow to the floor.

Description

CEILING MOUNTED TYPE AIR CONDITIONER FOR HEATING AND COOLING}

The present invention relates to a ceiling type air conditioner for cooling and heating, and more particularly, to allow different discharge airflows to be formed during cooling and heating, and to increase the output power of the heating airflow during heating so that the heating airflow can reach the floor. A cooling and air conditioning ceiling air conditioner.

An air conditioner is a device that adjusts the temperature, humidity, cleanliness, and airflow of air in the room to create a comfortable indoor environment.

An air conditioner separates the components of the refrigeration cycle into a window-type air conditioner installed in a window by arranging the elements of the refrigeration cycle in a window, and separates the components constituting the refrigeration cycle into an indoor unit and an outdoor unit, and a relatively small separate type air conditioner and a so-called large capacity. There is a custom air conditioner.

Recently, so-called ceiling air conditioners installed on the ceiling have been on the rise to efficiently utilize indoor spaces. Among such ceiling air conditioners, the cooling air flow and heating functions are controlled by controlling the flow direction of the refrigerant. There is a ceiling and air conditioner for both air conditioning and heating.

1 is a longitudinal cross-sectional view of a conventional air-conditioning ceiling type air conditioner, FIG. 2 is a cross-sectional plan view of a discharge port area of the casing of FIG. 1, and FIG. 3 is an enlarged louver driving unit of the ceiling-heating type air conditioner of FIG. 1. It is also. As shown in these figures, the air-conditioning combined ceiling air conditioner includes a suction inlet 12 penetrated so as to suck air in the center of the bottom surface, and first to first penetrating at right angles around the inlet 12. A casing 11 having four discharge ports 14a to 14d embedded in the ceiling, and a blowing fan 17 rotatably disposed around the rotating shaft disposed along the vertical direction in the inner center of the casing 11. And an indoor heat exchanger 19 arranged around the blower fan 17, and first to fourth louvers 15a to 15d arranged to be rotatable and open to each discharge port 14a to 14d, and adjacent to each other. First and second connecting members 21 and 23 for rotatably connecting the pair of louvers integrally with each other, and the first and second connecting members 21 and 23 so that the respective louvers rotate and open the corresponding outlet. And first and second drive motors 25 and 35 for rotationally driving the motor.

The first and second driving motors 25 and 35 may include first and second driving motors 27 and 37 disposed on one side of the first and second connecting members 21 and 23, respectively, and each driving motor ( It comprises a plurality of electric gears (29, 39) for transmitting the rotational force of the 27,37 to the connection member.

By this configuration, when the blower fan 17 is driven, indoor air is sucked into the casing 11 through the inlet 12, and the sucked air is exchanged while passing through the indoor heat exchanger 19 to discharge each outlet. It is blown indoors through 14a-14d.

By the way, in such a conventional air-conditioning combined air conditioner, the air cooled while passing through the indoor heat exchanger 19 in the cooling mode reaches the floor relatively smoothly by natural convection, but in the heating mode, the indoor heat exchanger The air whose temperature is raised in contact with (19) does not reach the floor and is mainly present in the middle or upper region of the space of the room, which makes it difficult to raise the temperature of the floor.

Accordingly, it is an object of the present invention to provide a cooling air-conditioning combined ceiling air conditioner that allows different discharge airflows to be formed during cooling and heating, and increases the output power of the heating airflow during heating to reach the heating airflow to the floor.

1 is a longitudinal cross-sectional view of a conventional air-conditioning combined air conditioner,

2 is a plan sectional view of the discharge port region of the casing of FIG. 1;

Figure 3 is an enlarged view of the louver driving unit of the combined air-conditioning and ceiling air conditioner of Figure 1,

4 is a control block diagram of a cooling and cooling ceiling type air conditioner according to an embodiment of the present invention,

5 is a view showing a driving pattern of the louver of the combined air-conditioning and air conditioner of Figure 4,

FIG. 6 is a view illustrating a change in the speed of a blowing fan corresponding to the driving pattern of the louver of the combined air-conditioning and air conditioner of FIG. 5.

Explanation of symbols on the main parts of the drawings

11: casing 12: inlet

14a-14d: 1st-4th discharge outlet 15a-15d: 1st-4th louver

17: blower fan 19: indoor heat exchanger

25: first drive motor 35: second drive motor

41: operation mode selection unit 43: control unit

According to the present invention, there is provided, according to the present invention, the suction port and the first to fourth discharge port formed along the circumferential direction of the suction port to be perpendicular to each other and adjacent to each other around the suction port so as to suck the air in the center of the bottom surface; A casing embedded in the ceiling; A blowing fan configured to provide air sucked through the suction port into the interior of the casing through the first to fourth discharge ports; An indoor heat exchanger disposed in the casing along a circumferential direction of the blowing fan; First to fourth louvers arranged to open and close each discharge port with a rotating shaft which is biased toward one side along the width direction and protrudes along the longitudinal direction; First and second connecting members each of which is rotatably coupled to both ends of the two shafts adjacent to each other and disposed at right angles to each other; First and second driving motors for forward and reverse driving the first and second connection members, respectively; An operation mode selection unit for selecting any one of a heating mode and a cooling mode; Control unit for controlling the first and second driving motors to open the discharge port when the pair of louvers connected by any one of the first and second connection members when the heating mode is selected, the other pair of louvers open the discharge port It is achieved by a combined air-conditioning and ceiling air conditioner comprising a.

Here, the control unit may be configured by the other one of the first and second connection members in a state in which a pair of louvers rotatably connected to each other by one of the first and second connection members does not completely block the corresponding discharge port. It is preferable to control the first and second driving motors so that the opening time of each louver is longer than the blocking time so that a pair of connected louvers can open the corresponding discharge port.

The control unit may be configured such that the opening time of the pair of louvers connected by the first and second connecting members, respectively, is longer than the time when the louver is present in a completely blocked state when the heating mode is selected. It is effective to control the second drive motor.

The control unit preferably controls the first and second driving motors such that the louvers are arranged at an open rotation angle of about 60 degrees when the louvers are opened when the heating mode is selected.

In addition, the blowing fan is capable of adjusting the rotational speed, the control unit is a section in which a pair of louvers rotatably integrally connected by the first and second connection members to rotate to the position to open and block the corresponding discharge port, respectively. It is effective to decelerate the rotational speed of the blower fan for a predetermined time during the rotation time of the louver or before the rotation time of the louver so that the noise can be reduced.

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

4 is a control block diagram of a cooling and cooling ceiling type air conditioner according to an embodiment of the present invention, Figure 5 is a view showing a driving pattern of the louver of the cooling and cooling ceiling type air conditioner of Figure 4, Figure 6 5 is a view showing a change in the speed of the blowing fan corresponding to the driving pattern of the louver of the combined air-conditioning and ceiling air conditioner of FIG. The same and equivalent parts as those described above will be described with the same reference numerals for convenience of description. This air-conditioning combined type air conditioner has an accommodating space therein and is provided with a first to fourth discharge ports 14a to 14d around the inlet 12 and the inlet 12 in the center of the bottom, and is embedded in the ceiling. Peripheral of the blowing fan 17 and the blowing fan 17 which is rotatable about the rotating shaft disposed along the up-down direction in the inner central region of the casing 11 and the rotational speed can be adjusted. The indoor heat exchanger 19 disposed at right angles to each other, the first to fourth louvers 15a to 15d rotatably disposed at the respective discharge ports 14a to 14d, and a pair of adjacent louvers. First and second connecting members 21 and 23 for rotatable rotation, and first rotatable driving of the first and second connecting members 21 and 23 so that the louvers rotate and open the corresponding outlet. And second driving motors 25 and 35, an operation mode selecting unit 41 for selecting any one of a heating mode and a cooling mode, and heating. When the pair of louvers connected by one of the first and second connecting members 21 and 23 open the corresponding discharge port at the time of selection, the first pair of louvers connected by the other block the corresponding discharge port. And a control unit 43 for controlling the second driving motors 25 and 35, respectively.

The first connecting member 21 is rotatably coupled to each other in a rotational shaft of the first louver 15a and the fourth louver 15d in a so-called universal joint manner, and at one side of the first connecting member 21. The first drive motor 25 rotates the first connecting member 21 forward and backward to allow the first louver 15a and the fourth louver 15d to rotate and open the first discharge port 14a and the fourth discharge port 14d. Is formed.

The first driving motor 25 includes a first driving motor 27 having a rotating shaft disposed along an up-down direction in the inner edge region of the casing 11, and a rotational force of the first driving motor 27. It comprises a plurality of electric gears 29 meshed with each other so as to transmit to (21).

The second connecting member 23 is installed in the diagonal direction of the first driving motor 25 so as to rotatably connect the rotation shafts of the second louver 15b and the third louver 15c with each other. On one side of the second connection member 23, a second driving motor 35 for rotating and opening the second louver 15b and the third louver 15c is formed.

The second driving motor 35 may transmit the rotational force of the second driving motor 29 and the second driving motor 29 to rotate the second connecting member 23 to the second connecting member 23. It is provided with a plurality of electric gears 39 meshed with each other.

On the other hand, when the heating mode is selected by the operation mode selection unit 41, the control unit 43, as shown in Figure 5, the first discharge port 14b and the third discharge port 14c in a state in which the first discharge port 14c is blocked. Power is applied to the first driving motor 27 so that the discharge port 14a and the fourth discharge port 14d can be opened. When the first driving motor 27 starts to rotate, the rotational force of the first driving motor 27 is transmitted to the first connecting member 21 by the plurality of electric gears 29, and the first connecting member 21 is As it is rotated, the first louver 14a and the fourth louver 14d rotatably connected to the first connection member 21 are rotated to open the first discharge port 14a and the fourth discharge port 14d, respectively. do.

Almost simultaneously with the opening of the first discharge port 14a and the fourth discharge port 14d, the control unit 43 controls the blower fan 17 so that the air in the room can be sucked through the suction port 12. As the blower fan 17 rotates, the air sucked into the casing 11 through the inlet 12 rises in temperature as it passes through the indoor heat exchanger 19, and the first outlet 14a and the fourth outlet 14d. By discharging through), it has relatively increased earth output and reaches the bottom to raise the temperature of the bottom.

When air is discharged through the first discharge port 14a and the fourth discharge port 14d and a predetermined time elapses, the control unit 43 allows the second discharge port 14b and the third discharge port 14c to be opened. Power is applied to the second driving motor 37. When the second driving motor 37 starts driving, the rotational force of the second driving motor 37 is transmitted to the second connecting member 23 through the electric gear, and as the second connecting member 23 rotates, the second driving motor 37 rotates. The discharge port 14b and the third discharge port 14c are opened.

The control unit 43 controls the first driving motor 27 so that the first discharge port 14a and the second discharge port 14b are blocked at the same time as the second discharge port 14b and the third discharge port 14c are opened.

Here, the rotation speed from the open position of each louver to the blocking position or the blocking position to the open position is the same, and the control unit 43 controls the first driving motor (60) to make the open rotation angle in the vertical direction of each louver 60 degrees. 27) and the second drive motor 37, respectively.

Moreover, compared with the time which each louver 15a-15d stopped in the state which opened the said discharge port 14a-14d, each louver 15a-15d stops in the state which interrupted the said discharge port 14a-14d, Control the length of time it is relatively long. For example, each of the louvers 15a to 15d is opened at the blocked position and the rotation time from the open position to the blocked position is approximately 5 seconds, respectively. If the time for stopping in the state of opening 14a-14d is about 1 minute, the time in which each louver 15a-15d stops in the state which interrupted the said discharge port 14a-14d becomes about 50 second. .

On the other hand, the control unit 43 is a pair of louvers connected integrally with each other by any one of the first connecting member 21 and the second connecting member 23 of the first to fourth discharge port (14a ~ 14d) As shown in FIG. 6, the blower fan 17 and the room from the inlet 12 may be reduced so that noise may be reduced in a section in which the other pair of louvers opens or blocks the corresponding outlet, while the outlet is open. Rotation of the blower fan 17 before the time point t1, t3, t5, t7 starts rotation in the direction in which the louvers 15a to 15d are opened in consideration of the time to reach the discharge port via the heat exchanger 19. Decelerate the speed so that the blowing fan 17 is driven. Then, before any of the pairs of louvers 15a to 15d completely block the corresponding ejection openings (t2, t4, t6), the rotation speed of the blower fan 17 is increased so that the ejection openings are completely blocked (t2, t4, At t6), it is operated at an increased speed, increasing the wind speed so that the heating airflow reaches the floor.

As described above, according to the present invention, a casing having a plurality of discharge ports formed around the suction port and the suction port, a blower fan disposed in the inner center of the casing, an indoor heat exchanger disposed around the blower fan, and each discharge port rotated. Rotating the first to fourth louvers to open and close, the first and second connecting members rotatably connecting two adjacent louvers to each other, and a pair of louvers connected to the first and second connecting members. A pair of louvers connected by the first and second drive motors, an operation mode selector for selecting one of the cooling mode and the heating mode, and one of the first and second connecting members in the heating mode block the corresponding discharge port. In one case, by providing a control unit for controlling a pair of louvers connected by the other to open the corresponding discharge port, so that different discharge air flow is formed during cooling and heating, heating air flow during heating Increasing the output by the SAT so as to reach the heating air flow to the bottom group is combined air ceiling type air conditioner capable of raising the temperature of the bottom is provided.

In addition, according to the present invention, the blower fan is configured to be variable in speed, and noise is generated by reducing the rotational speed of the blower fan at a time during which the louver rotates in a state of opening or blocking the corresponding discharge port or before the rotation time of the louver. It is provided with a cooling and heating ceiling type air conditioner that can suppress the.

Claims (5)

A casing embedded in the ceiling having a suction port to suck air in the center of the bottom surface, and first to fourth discharge ports formed along a circumferential direction of the suction port at right angles to and adjacent to each other around the suction port; A blowing fan configured to provide air sucked through the suction port into the interior of the casing through the first to fourth discharge ports; An indoor heat exchanger disposed in the casing along a circumferential direction of the blowing fan; First to fourth louvers arranged to open and close each discharge port with a rotating shaft which is biased toward one side along the width direction and protrudes along the longitudinal direction; First and second connecting members each of which is rotatably coupled to both ends of the two shafts adjacent to each other and disposed at right angles to each other; First and second driving motors for forward and reverse driving the first and second connection members, respectively; An operation mode selection unit for selecting any one of a heating mode and a cooling mode; Control unit for controlling the first and second driving motors to open the discharge port when the pair of louvers connected by any one of the first and second connection members when the heating mode is selected, the other pair of louvers open the discharge port Combined ceiling and air conditioning, air-conditioning, comprising a. The method of claim 1, The control unit may be connected to one another of the first and second connection members in a state in which a pair of louvers rotatably connected to each other by one of the first and second connection members does not completely block the corresponding discharge port. And a ceiling and air conditioner for controlling both of the first and second driving motors such that the opening time of each louver is longer than the blocking time so that a pair of louvers can open the corresponding discharge port. The method of claim 1, The control unit selects a heating mode such that the opening time of the pair of louvers connected by the first and second connecting members, respectively, is longer than the time when the louver is present in a completely blocked state of the discharge port. Cooling and cooling ceiling type air conditioner, characterized in that for controlling the drive motor. The method of claim 1, The control unit controls the first and the second driving motor so that the louver is arranged at an open rotation angle of about 60 degrees when the louver is opened when the heating mode is selected. The method according to any one of claims 1 to 4, The blowing fan is capable of adjusting the rotational speed, and the control unit makes noise in a section in which a pair of louvers rotatably integrally connected to each other by the first and second connection members rotate to a position to open and block the corresponding outlet. And a predetermined speed reduction of the rotational speed of the blower fan during a rotation time of the louver or a predetermined time before the rotation time of the louver so as to be reduced.