KR100295964B1 - Interior of the ceiling air conditioner - Google Patents

Abstract

The present invention relates to an indoor unit of a ceiling type air conditioner, and more particularly, to provide an indoor unit of a ceiling type air conditioner capable of miniaturization while improving noise characteristics by improving directivity during fixed pressure and discharge.

In order to achieve the above object, the present invention provides a motor for providing a driving force, a turbo fan without a casing connected to the motor, a heat exchanger surrounding the turbo fan, an inlet for sucking air in the center of the turbo fan, In the indoor unit of the ceiling-type air conditioner comprising a plurality of discharge ports for discharging the air from the heat exchanger to the outside and a drain pump unit for collecting the condensed water generated during the heat exchange process of the heat exchanger to discharge to the outside Between the rear side of the turbofan and the heat exchanger, which are located on the opposite side opposite to the side, an air guide plate for guiding in the same direction as the exit angle of the turbofan through which the air sucked through the turbofan is discharged is provided. Characterized in that provided.

Description

Indoor unit of ceiling air conditioner

The present invention relates to an indoor unit of a ceiling type air conditioner, and more particularly, to an indoor unit structure of a ceiling type air conditioner for enabling low noise of a indoor unit of a ceiling type air conditioner and miniaturization of a set.

As shown in FIG. 1, an indoor unit of a conventional ceiling type air conditioner surrounds a motor 1 providing a driving force, a turbo fan 2 without a casing connected to the motor 1, and the turbo fan 2. A heat exchanger (3), a suction port (4) for sucking air at the center of the turbofan (2), and a plurality of discharge ports (5) for discharging air from the heat exchanger (3) to the outside. .

In addition, in the case of an air conditioning unit, a heat pump 6 formed outside the heat exchanger 3 and a drain pump for collecting condensed water generated during the heat exchange process of the heat exchanger 3 and discharging them to the outside (not shown in the drawing). And a heat exchanger (3) surrounding the turbofan (2) to prevent flow of air through the turbofan (2) in the direction of the drain pump (7) and the drain pump (7) is installed. The partition wall 8 which connects each edge part of () is provided.

When power is applied to the motor 1 in the state configured as described above, the motor 1 rotates. As the motor 1 rotates, the turbo fan 2 connected to the motor 1 rotates, thereby causing external air It is sucked into the indoor unit of the ceiling air conditioner through the suction port (4).

Thereafter, the sucked air flows in the direction of the heat exchanger 3 through the turbofan 2 in accordance with the continuous rotation of the turbofan 2, and passes through the heat exchanger 3 to the inside of the heat exchanger 3. Cooling is performed by supplying it to the room through the discharge port 5 in a state where the temperature is lowered by heat exchange with the cold refrigerant, and the refrigerant inside the heat exchanger 3 takes the temperature from the air and the temperature of the other elements of the system increases. Induced by to repeat this.

This is a case where the system is cooling, in the case of heating by changing the flow direction of the refrigerant to be driven, and by applying power to the heating wire (6) formed on the outside of the heat exchanger (3) to perform the heating smoothly, the heat exchanger (3). It is to allow the secondary heat to pass through the air.

At this time, the velocity component at the outlet of the turbofan 2 is U2, which is a main velocity vector, and since the turbofan 2 has a backward curved blade, the relative velocity vector due to circulation in the quill passage. And thus the flow direction and size of the air through the turbofan 2 becomes the C2 direction and size, which is a composite vector of the U2 and W2.

That is, the flow direction and size of the air through the turbofan 2 is dependent on the blade exit angle (angle formed by -U2 and W2, β) and the number of revolutions of the turbofan 2.

However, since the conventional ceiling air conditioners are used without a casing (scroll), the speed at the outlet is high but the pressure cannot be restored, resulting in low static pressure. Blowing performance is reduced.

In addition, since the velocity vector (wind component of the wind) at the exit is inclined at a predetermined angle with the fins of the surrounding heat exchanger, the heat exchange efficiency of the heat exchanger decreases and the noise is significantly increased during the passage of the heat exchanger fins. There is a problem in that the noise generated by the ceiling and the air flow acts as a reaction force to the air passing through the heat exchanger at the same time as the performance degradation of the ceiling-type air conditioner.

The present invention has been proposed in view of the above problems, and an object thereof is to provide an indoor unit of a ceiling type air conditioner capable of miniaturization while improving noise characteristics by improving directivity at high pressure and discharge.

1 is a block diagram of an indoor unit of a conventional ceiling type air conditioner,

(A) The top view.

(B) side view.

Figure 2 is a block diagram of the indoor unit of the ceiling air conditioner according to the present invention,

(A) The top view.

(B) side view.

3 is a detailed view of the air guide plate of the indoor unit of the ceiling air conditioner according to the present invention,

(A) The top view.

(B) side view.

** Description of symbols for the main parts of the drawing **

1: motor 2: turbo fan

3: heat exchanger 4: inlet

5: discharge port 6: heating wire

7: drain pump part 8: partition wall

101: air guide plate 101a: bottom plate

101b: guide member 101c: neck

In order to achieve the above object, the present invention provides a motor for providing a driving force, a turbo fan without a casing connected to the motor, a heat exchanger surrounding the turbo fan, and an inlet for sucking air in the center of the turbo fan; In the indoor unit of the ceiling-type air conditioner comprising a plurality of discharge ports for discharging the air from the heat exchanger to the outside, and a drain pump unit is provided with a drain pump for collecting the condensed water generated during the heat exchange process of the heat exchanger to discharge to the outside, An air guide plate for restoring the static pressure of the air while guiding in the same direction as the exit angle of the turbo fan through which the air sucked through the turbo fan is discharged from the rear of the turbo fan located on the opposite side opposite to the inlet side and the heat exchanger. It provides an indoor unit of the ceiling air conditioner, characterized in that provided.

Preferably, the air guide plate is preferably provided with a base plate on a disc, which is a fixed portion having a predetermined thickness, and a guide member arranged on the base plate and guided in a discharge direction of air discharged after being sucked by the turbofan.

Further preferably, the guide member is arranged to maintain the interval set in the circumferential direction on the edge side of the base plate.

Preferably, the guide member is preferably at least any one of a straight line, a single arc, a double arc, an airfoil is selectively applied, and is formed such that the interval gradually widens from the inner side to the outer side for restoring the static pressure of the air.

More preferably, the bottom plate adjacent to the drain pump part side is further provided with a neck so that the air sucked through the turbofan can flow only in the heat exchanger direction.

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

Since the indoor unit of the ceiling-type air conditioner to which the present invention is applied has the same structure as the conventional structure, the same reference numerals as in the conventional structure will be used, and the description will be given by paying attention to the air guide plate, which is the main point of the present invention.

Figure 2 is a block diagram of the indoor unit of the ceiling air conditioner according to the present invention, having the same structure as the prior art, the difference from the conventional structure is to guide the air exiting the turbo fan 2 in the same direction as the exit angle of the turbo fan (2) While the air guide plate 101 is provided to recover the positive pressure.

At this time, the air guide plate 101 is located between the turbo fan 2 and the heat exchanger (3), the outlet angle of the turbo fan (2) to the bottom plate (101a) having a fixed thickness as shown in FIG. The guide member 101b is considered to be formed at equal intervals in the circumferential direction from the importance of the turbofan 2, and the guide member 101b has a shape selected from a straight line, a single arc, a double arc, and an airfoil. It is formed so as to gradually widen from the inner side to the outer side to recover the static pressure of the air.

In addition, the neck 101c is provided on the side of the drain pump portion of the air guide plate 101 so that the air from the turbofan 2 flows only in the heat exchanger 3 direction. Will be eliminated.

When the turbo fan 2 rotates in the state configured as described above, external air flows into the indoor unit of the ceiling air conditioner through the intake port 4, and the turbo fan 2 exits the turbo fan 2 as described above, It passes through the air guide plate 101 in the direction C2, which is a composite vector of the relative velocity vector W2 due to the circulation in the channel.

At this time, since the guide member 101b of the air guide plate 101 is formed to gradually widen from the inner side to the outer side in the same direction as the exit angle of the turbofan 2, the air guided by the air guide plate 101 flows. It can flow to the heat exchanger 3 in the state of restoring the static pressure while flowing in the same direction as the direction.

As such, the air guide plate 101 may serve the same role as the scroll.

The air exiting the air guide plate 101 is introduced into the heat exchanger 3 surrounding the front surface thereof to exchange heat with the refrigerant flowing in the heat exchanger 3. In this case, the guide member of the air guide plate 101 When formed in accordance with the fin direction of the heat exchanger (3) in the direction 101b) it is possible to improve the heat exchange efficiency of the heat exchanger (3) and reduce the passing noise.

On the other hand, the neck portion 101c formed on the drain pump portion 7 side of the air guide plate 101 prevents the air from the turbo fan 2 from flowing in the direction of the drain pump portion 7 and prevents the heat exchanger ( 3) it serves to guide the flow only in the direction so that the noise generated by the air from the conventional turbofan (2) hit the partition wall and the air from the partition wall (8) to the air flowing in the heat exchanger direction as a reaction force It can fundamentally solve the phenomenon of reducing the heat exchange efficiency caused by the operation.

As described above, the present invention provides an air guide plate between the turbo fan and the heat exchanger to increase the static pressure, which is a disadvantage of the turbo fan without the casing, so that the size of the set is increased in preparation for the increase in cabin resistance due to the miniaturization of the air conditioner set. It can reduce, reduce the noise generated in the process of passing the heat exchanger or hit the partition wall of the air, there is an effect that can improve the heat exchange efficiency.

Claims (5)

A motor providing a driving force, a turbo fan without a casing connected to the motor, a heat exchanger surrounding the turbo fan, an inlet for intake air at the center of the turbo fan, and a plurality of air discharges from the heat exchanger to the outside In the indoor unit of the ceiling-type air conditioner composed of a discharge port of the air conditioner and a drain pump unit is provided with a drain pump for collecting the condensed water generated during the heat exchange process of the heat exchanger to discharge to the outside, the turbo located on the opposite side facing the inlet Between the rear of the fan and the heat exchanger is provided with an air guide plate for restoring the static pressure of the air while guiding in the same direction as the exit angle of the turbo fan through which the air sucked through the turbo fan is discharged Indoor unit. According to claim 1, characterized in that the air guide plate is provided with a base plate on the disc which is a fixed portion having a predetermined thickness, and a guide member which is arranged on the bottom plate and guides in the discharge direction of air discharged after being sucked by the turbofan Indoor unit of ceiling air conditioner. The indoor unit of the ceiling type air conditioner according to claim 2, wherein the guide member is arranged on the edge side of the base plate at intervals set in the circumferential direction. The method of claim 2, wherein the guide member is applied to at least one of the shape of a straight line, single arc, double arc, air foil is selectively applied and is formed so that the interval gradually widens from the inner side to the outer side to recover the static pressure of the air. The indoor unit of the ceiling air conditioner characterized by the above-mentioned. The indoor unit of the ceiling air conditioner according to claim 1, wherein the bottom plate adjacent to the drain pump part is further provided with a neck so that air sucked through the turbo fan flows only in the heat exchanger direction. .