KR100477313B1 - Housing structure of air conditioning blower - Google Patents

Abstract

The present invention relates to an air conditioning blower, and in particular, when the size of the product is increased, the loss increase due to the increase in the flow resistance is greater than the improvement of the fan performance due to the increase in the size of the fan. It is an object of the present invention to provide a housing structure of an air-conditioning blower device to induce inflow into the blower fan and to minimize the loss of air flow in the flow path to improve product reliability.

In order to realize this, the present invention is a housing structure of a blower that surrounds an impeller rotating by a motor and flows air, and inflows and outflows of air, wherein the housing main body and the side housings are inclined toward the outside with respect to the central air inlet. It was equipped to maintain.

Description

Housing structure of air conditioning blower

The present invention relates to an air conditioning blower, and more particularly, to a housing structure for achieving high efficiency and low noise of a blower fan used as a blower fan for an indoor unit in a separate air conditioner.

In the conventional air conditioning blower, as shown in FIGS. 1 and 2, the front panel 3, the suction grill 10, and the discharge port louver 1 are located at the outer front, and the cabinet 2 is located at the rear. In the internal structure, a heat exchanger (9) having a plurality of copper tubes and fins, a reinforcement plate (8) mounted on the cabinet (2), a motor (7) bolted to the reinforcement plate (8), and An impeller 6 rotating by the motor 7, a housing 5 coupled to the side housing 4 so that the impeller 6 is mounted, and both sides of the side housing 4 and the housing 5. It consists of an orifice 11 coupled to.

Referring to the operation of the conventional blower configured as described above, as shown in FIG. 3, when the motor 7 is driven, the air in the room is moved through the suction grill 10 by centrifugal force while the impeller 6 receiving power is rotated. The sucked air is sucked and the heat is generated and cooled by a cool refrigerant circulating in the pipe while passing through the heat exchanger (9).

And the air filled through the heat exchanger (9) is introduced into the impeller (6) through the orifices (11) on both sides of the housing (5) installed in the center of the blower, the air introduced in the axial direction of the motor (7) Is rotated at a right angle of 90 degrees and accelerated through the wing, is collected through the housing 8 to be discharged to the outside through the discharge louver (1).

However, such a conventional air flow distribution is bent on both sides of the blowing fan as shown in Figure 4, the air is divided and sucked, in which case the blowing fan itself prevents the smooth suction of air.

In other words, increasing the size of the blower fan increases the capacity of the blower fan itself, but the blower fan itself blocks the flow path and narrows the suction flow path, thereby increasing the flow resistance, which acts as a cause of noise and degrades the performance of the air conditioner. There was a problem.

The present invention has been invented to solve the problems of the prior art as described above, the housing body and the side housing is provided to maintain a constant inclined surface toward the outside centering the central air inlet, thereby ensuring the maximum housing area to rotate the impeller The purpose is to minimize the flow loss of the air introduced by the air blower for high efficiency.

The invention is described in detail below with reference to FIGS. 5 and 6.

Looking at the configuration of the present invention first, in the housing structure surrounding the impeller 106 and the impeller 106 to rotate the air flow by the drive of the motor 107, the impeller 106, the housing body 105 and the side housing 104 The center was configured to maintain a constant inclined surface (A. A ') toward the outside toward the center air inlet.

In the figure, reference numeral 108 denotes a reinforcing plate.

Looking at the air flow in the blower, the air passing through the impeller 106 is collected in the housing to recover the static pressure, which is better, but the space is better but relatively serves to block the flow of the flow path in the air conditioner.

In the present invention, the inner space of the housing is maximized by forming the housing side surface portion having a conventional planar shape to be inclined at a predetermined angle while maintaining the same overall size of the housing.

Looking at the flow distribution of the air according to the present invention, first, the air sucked by the impeller 106 is naturally guided along the inclined surfaces (A, A ') of the housing, bent 90 ° through the centrifugal force by the rotational force of the impeller Flows into the curvature of the housing.

The air collected in the housing is discharged upward and then discharged to the outside through the discharge louver.

As described above, the housing of the air-conditioning blower of the present invention has an increase in loss caused by an increase in flow resistance when the size of the product is increased. It induces the natural inflow of the fan and minimizes the air flow loss in the flow path, thereby improving the reliability of the product.

1 shows the internal structure of a general air conditioning blower;

   (A) Front view.

   (B) side view.

Figure 2 is an exploded perspective view of a conventional blower.

Figure 3 (a) (b) is a flow distribution diagram of a conventional blower.

Figure 4 shows the flow distribution in the conventional housing,

   (A) Front view.

   (B) side view.

5 shows a housing structure according to the present invention,

   (A) is a front view of the housing main body.

   (B) is a side view of the housing body and side housing combined.

6 is an air flow distribution diagram of the present invention.

*** Explanation of symbols for main parts of drawing ***

104: side housing

105: housing body

106: impeller

107: motor

108: reinforcement plate

Claims (2)

In the housing of the air-conditioning blower that surrounds the impeller that rotates by the motor and flows the air, the air flows in and out, The housing is composed of a housing body and a side housing, the air inlet is formed in the center, The housing body and the side housing is a housing structure of the air conditioning blower, characterized in that to maintain a predetermined inclined surface toward the outside toward the center air inlet. The method of claim 1, And the inclined surfaces of the housing main body and the side housing are convex in the outer direction of the housing toward the center axis of the housing.