KR100220393B1 - Cool air supply structure of a refrigerator - Google Patents

Abstract

The present invention relates to a cold air supply structure for guiding the cold air supplied to the freezing chamber to the door duct installed in the door.

The cold air supply structure according to the present invention is provided on the door side and interlocks with a door duct for supplying cold air to the rear of the refrigerating compartment, a cold air duct for guiding cold air supplied to the refrigerating compartment to the door duct, and opening and closing of the door. And opening and closing means for opening and closing the front opening of the cold air duct. According to one embodiment of the opening and closing means, a cold air control member having a sealing surface for sealing the cold air guide duct, rotatably supported to open and close the cold air guide duct, and in a direction to seal the cold air guide duct It is composed of an elastic member for elastically supporting the cold air control member, the cold air guide duct is sealed by the elastic member when the door is open, the contact surface of the door rotates the cold air control member in the closed state the door An example of opening is disclosed.

Description

Cold air supply structure of the refrigerator

1 is a perspective view showing a conventional cold air supply structure with the door open.

2 is a cross-sectional view showing a conventional cold air supply structure.

3 is a cross-sectional view of a connection structure between a conventional door duct and a cold air duct.

Figure 4 is an exploded perspective view showing the configuration of the cold air control member and the cold air guide duct of the present invention.

5 is a cross-sectional view showing a supply structure of cold air according to the present invention with the door closed.

Figure 6 is a cross-sectional view showing a blocking structure of the cold air according to the present invention in the door open state.

* Explanation of symbols for main parts of the drawings

20: cold air control member 22, 23: opening

24: sealing surface 29: elastic member

30: cold air duct 32: opening

40: door 42: door duct

The present invention relates to a structure for supplying cold air of a refrigerator, and more particularly, a refrigerator main body and a door for guiding cold air to a door side to supply cold air to a rear side of a refrigerating compartment as the cracking of cold air is performed according to opening and closing of the door. It relates to the connection structure between.

The supply of cold air in the refrigerating chamber is supplied through the refrigerating chamber duct provided on one wall of the refrigerating chamber. A portion of the cold air heat exchanged in the vicinity of the evaporator of the refrigerator descends through the refrigerating chamber duct and is discharged to the refrigerating chamber through the cold air discharge hole formed in the refrigerating chamber duct. According to such a conventional cold air supply structure, since cold air is supplied to one side of the refrigerating compartment, for example, in one direction from the rear to the front, supply of sufficient cold air as a whole becomes a problem. In order to solve this problem, the present applicant has proposed a cold air supply structure capable of supplying cold air from the door to the rear of the refrigerating chamber.

First, this cold air supply structure will be described with reference to FIGS. 1 to 3.

As shown in FIG. 1, cold air is supplied to the refrigerator compartment 2 via the cold air | gas discharge hole 4a shape | molded in the refrigerator compartment duct 4 provided in the refrigerator compartment 2 inside. The cold air duct 6 is branched from the refrigerated duct 4, and the cold air duct 6 is connected to the door duct 8 provided on the rear surface of the door 10. Therefore, a part of the cold air supplied to the refrigerating chamber duct 4 is supplied to the door duct 8 through the cold air guide duct 6. The cold air supplied to the door duct 8 supplies cold air through the cold air discharge holes 8a of the door duct 8. According to this structure, the cold air supplied to the refrigerating compartment is supplied in three dimensions at the rear and front of the refrigerating compartment 2.

2 shows the cold air supply structure as described above in detail. As shown in FIG. 2 and FIG. 3, in order to supply cold air to the door duct 8 from the cold air duct 6 without leakage, it is flexible between the cold air duct 6 and the door duct 8. The connection tube 12 of one property is used. The connection tube 12 is installed in the gap between the refrigerator main body and the door 10, and is used as a connection passage for the cold air between the cold air guide duct 6 and the door duct 8, and when the door 10 is opened, The connecting tube 12 is spaced apart from one side.

However, according to such a conventional structure, the following problems are raised.

According to the opening and closing of the door, the connection tube 12 repeatedly contracts and expands, and since the connection tube is easily damaged by such a fatigue load, supply of cold air to the door duct is not smooth.

In addition, when the door is opened, external air invades the cold air duct 6, resulting in the loss of the supplied cold air.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a cold air supply structure in which the control of cold air into the door duct is performed accurately according to the opening and closing of the door.

Another object of the present invention is to provide a cold air supply structure that can prevent the inflow of outside air to the cold air guide duct for supplying cold air to the door duct.

The cold air supply structure according to the present invention for achieving the above object is provided on the door side, the door duct for supplying cold air to the rear of the refrigerating chamber, the cold air guide duct for guiding the cold air supplied to the refrigerating chamber, And opening and closing means for opening and closing the front opening of the cold air duct in association with opening and closing of the door.

And according to an embodiment of the opening and closing means, having a sealing surface for sealing the cold air guide duct, the cold air control member is rotatably supported to open and close the cold air guide duct, sealing the cold air guide duct And an elastic member for elastically supporting the cold air control member in a direction, and in the state in which the door is opened, the cold air duct is sealed by the elastic member, and in the closed state, the contact surface of the door rotates the cold air control member to guide the cold air. It is trying to open the duct.

According to a specific example of the cold air control member, three surfaces including a sealing surface are provided, and two adjacent surfaces are formed as openings, and are rotatably installed at the front portion of the cold air duct.

Next, the present invention will be described in more detail with reference to the embodiments shown in the drawings.

In FIG. 4, reference numeral 30 denotes a cold air guide duct mounted on one side wall of the refrigerating compartment for supplying cold air to the door flow passage, and reference numeral 20 is inserted into the cold air guide duct 30 to prevent opening and closing of the door. It is a cold air control member for intermittent supply of cold air.

The cold air control member 20 has a substantially triangular shape when viewed in a plan view, and openings 22 and 23 are formed in two surfaces, respectively, and one surface except the openings 22 and 23 is a sealing surface. (24). The cold air control member 20 is installed so as to be rotatable inside the cold air guide duct 20 with a pivot pin 25 protrudingly formed on the upper and lower surfaces thereof, and an elastic member (25) behind the sealing surface 24. 29) (see Fig. 5) is inserted. The openings 22 and 23 open the cold air duct 30 while communicating with the door 40 in the closed state, so that the cold air from the cold air duct 30 can be supplied to the door duct 42 to be described later. It is. The sealing surface 24 is a portion for closing the cold air duct 30 by rotating the cold air control member 20, as will be described later, and leakage of cold air on one side of the sealing surface 24. The cold air blocking plate 28 for blocking is protruded.

In addition, the cold air control member 20 is inserted through the front opening 32 of the cold air duct 30, the rotation pin 25 is inserted into the hinge groove 35 formed on the upper and lower surfaces of the cold air guide duct 30. As a result, the cold air duct 30 is rotatably supported. An elastic member 29 is interposed between the rear surface of the sealing surface 24 of the cold air control member 20 and the corresponding surface 39 of the cold air guide duct 30. The cold air control member 20 is always elastically supported counterclockwise around the pivot pin 25 (see FIG. 5).

Next, the operation of the cold air supply structure according to the present invention will be described with reference to FIGS. 5 and 6.

5 illustrates a state in which the door 40 is closed in the refrigerator. In this state, the cold air control member 20 inserted into the cold air duct 30 has an angular position in which two openings 22 and 23 open the cold air duct 30. have. That is, the cold air control member 20 is pressed by the contact surface 44 of the door in contact with the front surface of the side wall 42 of the refrigerator main body, so that the cold air control member 20 rotates clockwise and is pressed. The sealing surface 24 is parallel with one side of the cold air guide duct 30. In addition, the elastic member 29 on the rear surface of the sealing surface 24 has elastic restoring force in a completely contracted state. At this time, the cold air blocking plate 28 extending perpendicular to the sealing surface 24 prevents the leakage of cold air through the gap between the cold air duct duct 30 and the sealing surface 24.

In this state, the cold air supplied through the cold air duct 30 flows into the door duct 42 through the door duct inlet 42a. The introduced cold air is ejected through the plurality of cold air discharge holes 42b formed in front of the door duct 42. The cold air ejected in this state is substantially supplied rearward from the refrigerating compartment.

When the user opens the door 40 of the refrigerator in this state, the door 40 is in a state as shown in the sixth cavity. That is, when the door 40 is opened in the main body, the contact surface 44 of the door is spaced apart from the front surface of the cold air control member 20. When the door 40 that pressurizes the cold air control member 20 is opened, the cold air control member 20 rotates counterclockwise about the pivot pin 25 by the elastic restoring force of the elastic member 29. Done.

By such rotation, the sealing surface 24 of the cold air control member 20 seals the opening 32 of the cold air guide duct 30, so that cold air is not supplied to the door duct 42, and the door ( In the open state, the outside air is prevented from entering the cold air control member 20.

When the user closes the door 40 again, the state is shown in FIG. 5, and the cold air in the cold air duct 30 is guided to the door duct 42. As described above, the cold air flows behind the refrigerating compartment. Cold air is to be supplied.

As described above, the cold air control member 20 according to the present invention intervenes with the opening and closing of the door and controls the supply of cold air through the cold air guide duct 30. That is, it can be seen that there is a technical point of opening the cold air guide duct 30 for supplying cold air to the door duct 42 when the door is closed and closing the door when the door is opened. Therefore, it will be appreciated that many modifications of the present invention are possible within the range in which the cold air control member 20 opens and closes the cold air duct 30 while interlocking with the opening and closing of the door 40. For example, the cold air control member 20 may have a sealing surface capable of sealing the cold air duct 30, and the sealing surface may be configured to be opened and closed while interlocking with the door 40.

More specifically, one sealing surface is installed near the front opening of the cold air duct 30 so as to open and close the cold air duct 30, the contact surface 44 of the door 40 in accordance with the opening and closing of the door By making it possible to move in the direction of opening or closing the said sealing surface, it becomes possible to obtain the same effect.

In addition, the cold air guide duct 30 for guiding the cold air to the door duct 42 is branched from the existing cold duct for guiding the cold air to the refrigerating compartment. The installation may also provide a separate duct inside the refrigerating compartment. Of course, it is also possible to be configured to supply the cold air to the door duct 42 through the side wall or the upper wall of the refrigerating chamber.

According to this invention comprised as mentioned above, the following use effects are anticipated.

First, unlike the configuration of the conventional connection tube, the cold air control member according to the present invention does not damage the cold air control member itself even if it is repeatedly rotated according to the opening and closing of the door, thereby ensuring the reliability of the cold air control even for long-term use. . In addition, since the cold air duct is sealed in the open state of the door, high temperature outside air cannot be introduced into the cold air duct, so that the supply efficiency of the cold air can be maintained regardless of opening and closing of the door.

Claims (3)

A door duct installed at the door side to supply cold air to the rear of the refrigerating chamber; A cold air duct for guiding cold air supplied to the refrigerating compartment to the door duct; And opening and closing means for opening and closing the front opening of the cold air duct in association with opening and closing of the door. According to claim 1, The opening and closing means; A cold air control member having a sealing surface capable of sealing the cold air guide duct and rotatably supported to open and close the cold air guide duct; An elastic member for elastically supporting the cold air control member in a direction to seal the cold air guide duct; The cold air duct duct is sealed by the elastic member when the door is opened, and the contact surface of the door rotates the cold air control member to open the cold air duct duct when the door is closed. The refrigerator's cold air supply structure according to claim 2, wherein the cold air control member has three surfaces including a sealing surface, and two adjacent surfaces are formed as openings, and are rotatably installed at a front portion of the cold air duct.

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