KR20110015792A - Cool air flow structure for refrigerator - Google Patents

Abstract

PURPOSE: A cold air flow structure for a refrigerator is provided to minimize noise and enable smooth flow of cold air by blocking the vortex of cold air. CONSTITUTION: A cold air flow structure for a refrigerator comprises an orifice and a ventilation fan(200). The orifice comprises a cool air through-hole(110) guiding the cool air to the storage space of a refrigerator. The ventilation fan comprises a base plate(210), multiple blades(220), a shroud(230), and a bellmouth(240). The base plate is separated from one side of an orifice. The multiple blades are arranged according to the columnar direction of the base plate. The shroud keeps the rotation of the blade. The bellmouth is projected from the center of the base plate. A guide curvature part is formed on the outer circumference of the shroud facing to the orifice. A vortex blocking curvature part is formed on the orifice to correspond to the guide curvature part.

Description

Cold air flow structure for refrigerator {COOL AIR FLOW STRUCTURE FOR REFRIGERATOR}

The present invention relates to a cold air flow structure for a refrigerator, and more particularly to a cold air flow structure for a refrigerator that can simultaneously block the vortex of the cold air generated between the blower fan and the orifice of the refrigerator and the noise generated thereby.

In general, the refrigerator is for storing the food stored therein for a long time without deterioration by cooling or freezing the food stored therein by cooling the air in the refrigerator using a cooling cycle.

The refrigerator includes a compressor for compressing the refrigerant into a gaseous refrigerant having a high temperature and a high pressure, a condenser for exchanging the refrigerant sent from the compressor to a liquid refrigerant at a high temperature and a high pressure state, and a refrigerant having a high temperature and high pressure passing through the condenser. And a capillary tube that passes through the capillary to convert into a low-temperature and low-pressure liquid refrigerant, and an evaporator that heat-exchanges with the air in the refrigerator while vaporizing the refrigerant sent to the low-temperature / low-pressure state through the capillary tube.

Meanwhile, as illustrated in FIGS. 1 and 2, a cold air duct D through which cold air cooled by an evaporator (not shown) moves is formed on the rear wall of the refrigerator.

In the internal space of the cold air duct (D) is formed an orifice (10) having a cold air hole 11 for circulating the flow of cold air to the other space.

And, inside the cold air duct (D) is disposed in a position facing the cold air vent 11 of the orifice 10 is provided with a blowing fan 20 for rapidly advancing the flow of cold air.

The blower fan 20 includes a base plate 21, a blade 22, a shroud 23, a bell mouse 24, and the like.

Looking at the cold air flow structure for a refrigerator according to the prior art configured as described above, the blowing fan 20 in the process of passing the cold air through the air (11) of the orifice 10 by the flow of cold air along the cold air duct (D) of the refrigerator The cold air is discharged radially to be supplied to the storage space of the refrigerator.

However, according to the prior art, there is a problem in the space between the orifice 10 and the shroud 23 caused by the vortex phenomenon according to the air pressure difference and accompanying the noise.

In addition, there is a problem that the vortex generation phenomenon is aggravated from the shape difference between the orifice 10 and the shroud 23 to reduce the flow efficiency of cold air to be discharged to the refrigerator storage compartment.

The present invention has been made to solve the above problems, an object of the present invention is to fundamentally block the vortex generated between the orifice and the shroud, cold air flow structure for refrigerators that can further improve the flow efficiency of cold air To provide.

In order to achieve the above object, the refrigerator cold air flow structure according to the present invention,

An orifice having a cold air passage for guiding cold air to a storage space of the refrigerator;

A base plate spaced apart from one surface of the orifice by a predetermined distance, a plurality of blades arranged along the circumferential direction of the base plate, a shroud for stably maintaining the rotation of the blade, and protruding convex from the middle of the base plate Including; blower fan having a bell mouse 240 is included,

At the outer periphery of the shroud facing the orifice is formed a guide curvature for flowing cold air flowing back to the pressure difference to the blowing fan,

The orifice is characterized in that the vortex blocking curvature of the structure corresponding to the guide curvature is formed.

In particular, a backflow space portion having a predetermined shape is formed between the guide curvature portion and the vortex blocking curvature portion.

In addition, the end portion of the vortex blocking curvature portion is characterized in that the guide portion extending to a predetermined length toward the bottom is further formed.

According to the present invention having the above-described configuration, the orifice and the shroud are formed by guiding curvature and vortex blocking curvature of the same shape, respectively, so as to fundamentally block the vortex phenomenon of cold air to smoothly flow the cold air Not only that, there is an effect that can minimize the resulting noise.

Hereinafter, with reference to the accompanying Figures 3 to 4 will be described in detail a preferred embodiment of the present invention.

As shown, the cold air flow structure for a refrigerator according to the present invention is an orifice (100) having a cold air vent 110 for guiding the cold air to the storage space of the refrigerator, and a predetermined distance away from one surface of the orifice (100) It includes a blowing fan 200 is disposed.

First, the blowing fan 200 is installed in the cold air duct (D) of the refrigerator to serve to accelerate the circulation flow of cold air.

The blowing fan 200 is connected to the motor (M) for transmitting power to operate.

Specifically, the blowing fan 200 is a base plate 210, a plurality of blades 220 are arranged along the circumferential direction of the base plate 210, and to maintain the stable rotation of the blade 220 It consists of a shroud 230 and a bell mouse 240 protruding convexly from the middle of the base plate 210.

The bell mouse 240 is connected to the rotating shaft of the motor (M) to receive a rotational power to serve as a natural guide in the direction perpendicular to the sucked cold air.

The shroud 230 is formed with a guide curvature 231 for reducing the flow loss of the cold air according to the pressure difference from the space facing the orifice 100 to be described later.

The guide curvature 231 serves to guide the cold air flowing back to the pressure difference toward the blowing fan 200.

Here, the shape of the guide curvature 231 may be formed in a curved "b" shape.

Hereinafter, the orifice 100 which is a characteristic component of the present invention will be described in detail.

The orifice 100 is partitioned inside the cold air duct D of the refrigerator to easily guide the cold air to another storage space.

Of course, the cold air vent 110 is formed at any point of the orifice 100 to allow cold air to flow.

On the other hand, the blowing fan 200 is preferably disposed in a direction opposite to the cold air hole 110 of the orifice 100 and installed a predetermined distance apart from one side thereof. This is to enable the circulation of cold air more efficiently.

In particular, the orifice 100 is formed with a vortex blocking curvature 120 having a structure corresponding to the guide curvature 231 of the shroud 230 of the blowing fan 200.

Accordingly, a constant backflow space portion D1 is formed between the guide curvature 231 and the vortex blocking curvature 120 (see FIG. 4).

In addition, the end of the vortex blocking curvature 120 is formed with a guide portion 121 extending to a predetermined length toward the bottom.

The cold air flow structure for a refrigerator according to the present invention configured as described above, even when a part of the cold air discharged through the blower fan 200 flows into the backflow space part D1 when the blower fan 200 is operated, the cold air is vortex phenomenon. In the process of moving along the predetermined path without any interference with the guide unit 121 is moved to the blowing fan 200 again.

Therefore, there is an advantage that the flow of cold air is made more smoothly and the flow rate noise can be greatly reduced accordingly.

1 is a cross-sectional view showing a cold air flow structure for a refrigerator according to the prior art.

2 is an enlarged view of FIG. 1.

3 is a cross-sectional view showing a cold air flow structure for a refrigerator according to an embodiment of the present invention.

4 is an enlarged view of FIG. 3.

<Description of Signs of Major Reference Symbols>

100: orifice 110: cold air studying

120: vortex blocking curvature 200: blowing fan

230: shroud 231: guide curvature

D: Cold air duct D1: Backflow space part

Claims (3)

An orifice having a cold air passage for guiding cold air to a storage space of the refrigerator; A base plate spaced apart from one surface of the orifice by a predetermined distance, a plurality of blades arranged along the circumferential direction of the base plate, a shroud for stably maintaining the rotation of the blade, and protruding convex from the middle of the base plate Including; blower fan having a bell mouse 240 is included, At the outer periphery of the shroud facing the orifice is formed a guide curvature for flowing cold air flowing back to the pressure difference to the blowing fan, And the vortex blocking curvature having a structure corresponding to the guide curvature is formed in the orifice. The method of claim 1, Refrigerating air flow structure for a refrigerator, characterized in that the countercurrent curvature portion and the vortex blocking curvature portion has a certain form of countercurrent space portion. The method of claim 2, Cooling air flow structure for a refrigerator characterized in that the guide portion extending to a predetermined length toward the bottom at the end of the vortex blocking curvature is formed.

Images