KR19990047291A - Shroud structure of the air intake device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shroud structure of an air intake device, and in particular, an object thereof is to promote turbulence of discharged air to increase air flow rate and to prevent noise.

In order to achieve this object, the present invention provides a fan forcibly sucking air by rotation, a motor for driving the fan, and an outer portion of the fan in the circumferential direction of the fan to protect the fan and prevent backflow of discharged air. In the air intake device composed of a shroud, a groove for forming turbulent flow of the discharged air is formed in the discharge air contact portion of the shroud.

Description

Shroud structure of the air intake device

The present invention relates to an air intake device for use in a separate or window type air conditioner, and more particularly to a structure of a shroud for forming turbulent flow of discharged air.

Conventionally, the air suction device is used in a separate type or window type air conditioner and the like, and its structure is a fan 1 for forcibly sucking air by rotation and a motor for driving the fan 1 as shown in FIG. 2) and a shroud 3 formed outside thereof in the circumferential direction of the fan 1 to protect the fan 1 and to prevent the backflow of discharged air.

When power is applied to the motor 2 in the state configured as described above, the motor 2 is driven to rotate the fan 1, and suction force is generated according to the rotation of the fan 1, so that air is sucked into the device. The sucked air is accelerated while passing through the fan 1 and discharged at a high speed after passing through the heat exchanger (not shown) and gaining or losing heat.

On the other hand, the fluid flowing through the heat exchanger is input to other elements of the system in the state of losing or obtaining heat from the air to perform cooling or heating.

At this time, the discharged air is mostly discharged through the fan 1, but as shown in FIG. 2, the air passing between the fan 1 and the shroud 3 is between the fan 1 and the shroud 3 and the Due to the pressure difference in the other parts, a swirl recycling region is generated.

Since the air recirculation flow acts as a resistance to the smooth air flow, there was a problem that causes a decrease in flow rate and noise.

SUMMARY OF THE INVENTION In view of this, the present invention aims to increase the flow rate of the fan by reducing the size of the air recirculation flow by forming a groove in the discharge air contact portion of the shroud to promote turbulence of the discharge air, and to prevent noise. .

1 is a block diagram of a conventional air intake device.

2 is an operation diagram of a conventional air intake device,

A side view.

(B) is front view.

3 is a block diagram of an air intake apparatus according to the present invention.

4 is a shroud of the air intake apparatus according to the present invention,

(A) Front view.

(B) is A-A 'section of (a).

(C) is a detail view of Part B of (B).

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

101: fan 102: motor

103: shroud 104: home

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

3 is a configuration diagram of an air intake device according to the present invention, which includes a fan 101 for forcibly inhaling air by rotation, a motor 102 for driving the fan 101, and a fan 101. It is composed of a shroud 103 formed on the outside in the circumferential direction of the fan 101 to protect and prevent the reverse flow of the discharged air.

A groove 104 is formed in the discharge air contact portion of the shroud 103 to promote turbulence of the discharge air.

In addition, the width of the groove 104 is configured to be located between 0.2 ° to 10 ° centered around the center of the shroud 103, the depth of the groove 104 is a thickness of the shroud 103 It is configured to be between 0.1t to 0.7t.

When power is applied to the motor 102 in the state configured as described above and the motor 102 is driven, the fan 101 rotates to force suction of air.

The intake air is discharged to the outside of the device through the fan 101 after performing a certain role, most of the air is discharged through the fan 101, but the air passing between the fan 101 and the shroud 103 Vortex recirculation region is generated by the pressure difference between the fan 101 and the shroud 103 and other portions, which acts as a resistance to the smooth air flow.

The embodiment according to the present invention is to improve the efficiency by reducing the recirculation area of the air, by forming a groove 104 in the discharge air contact portion of the shroud 103 to promote turbulence of the discharge air by recycling the swirl The flow is offset by this turbulence.

Here, the width of the groove 104 (0.2 ° to 10 ° with respect to the center of the shroud) and the depth of the groove 104 (the center of the shroud) which are experimentally calculated as the best case for the turbulence formation of the discharged air in the recirculation area of the air. If the thickness of the shroud is 0.1t ~ 0.7t), it is possible to implement an improved air intake device.

As described above, the present invention facilitates turbulence of the discharged air by forming a groove in the discharge air contact of the shroud, so that the swirl recycle flow is reduced under the influence of the turbulent flow, thereby smoothing the flow of air. Is increased, and noise is also reduced.

Claims (3)

An air intake device comprising a fan forcibly drawing air by rotation, a motor for driving the fan, and a shroud formed outside thereof in the circumferential direction of the fan to protect the fan and prevent backflow of discharged air. To The shroud structure of the air suction device, characterized in that the groove for forming the turbulent flow of the discharge air is formed in the discharge air contact portion of the shroud. The method of claim 1, The angle formed by the width of the groove is a shroud structure of the air intake device, characterized in that 0.2 ° ~ 10 ° around the center of the shroud. The method of claim 1, The depth of the groove is a shroud structure of the air intake device, characterized in that between 0.1 times to 0.7 times the thickness of the shroud.