KR100685998B1 - Door assembly for a refrigerator and refrigerator using the same - Google Patents

Abstract

The present invention relates to a door assembly of a refrigerator configured to open and close a food storage compartment without interfering with each other and a pair of doors and a refrigerator using the same. A pair of doors disposed to face each other in the main body of the refrigerator; First gaskets fixed to the doors; And extends from the first gasket, attachable to and detachable from each of the doors, and maintains contact with the other door while falling from the one door when one of the pair of doors is opened; Provided is a door assembly of a refrigerator comprising a second gasket configured to slide freely from another door that is in contact when one door is rotated by a predetermined angle.

Refrigerator, pantry, door, gasket, friction, damage, breakage, prevention

Description

Door assembly for a refrigerator and refrigerator using the same}

1 is a perspective view of a refrigerator according to the present invention;

2 is a plan view showing the refrigerator of FIG. 1 when the door is closed;

3 is a partial cross-sectional view showing a gasket installed between a pair of doors in the refrigerator of FIG. 1;

4 is a partial perspective view illustrating a structure of a gasket in the refrigerator of FIG. 1;

5 to 7 are plan views illustrating a process of opening one door in the refrigerator of FIG. 1; And

8 and 9 are plan views illustrating a process of opening two doors together in the refrigerator of FIG. 1.

Explanation of symbols on the main parts of the drawings

100: refrigerator 101: refrigerator

102: freezer 110: main body

120: door 205: magnet

210: first gasket 220: second gasket

221: first part 222: second part

230: elastic member 240: frame

The present invention relates to a refrigerator, and more particularly, to a door assembly of a refrigerator configured to open and close a food storage room without interfering with a pair of doors and a refrigerator using the same.

The refrigerator has a top mount freezer type with a freezer at the top and a freezer at the bottom, a side by side type with a freezer and a freezer at the left and a right, and a freezer at the bottom. The refrigerating compartment may be classified as a bottom mount freezer type at the top.

As mentioned above, the bottom mount freezer-type refrigerator has a freezing compartment formed at a lower side thereof and a refrigerating compartment formed at an upper side thereof. Here, the lower freezer compartment is generally opened or closed by a door moving along the guide of the slide rail or the hinge, and the upper freezer compartment is generally opened or closed by the door moving according to the guide of the hinge.

If the capacity of the refrigerator compartment is small, the refrigerator compartment is generally configured to be opened and closed by one door. However, when the capacity of the refrigerating compartment is large, the refrigerating compartment is generally configured to be opened and closed by a pair of doors provided on both left and right sides.

Here, the inside of the refrigerating chamber having a large capacity is generally provided with a partition wall that divides the inside of the refrigerating compartment into a left space and a right space, wherein one of the pair of doors is installed to open and close the left space of the refrigerating compartment, The other is installed to open and close the right space of the refrigerator compartment.

When the pair of doors installed as described above is closed, each gasket of each door is in close contact with the front edge of the refrigerator compartment and the front edge of the partition wall, thereby sealing the left and right spaces of the refrigerator compartment, respectively.

By the way, if there is a partition inside the refrigerating compartment as described above, the capacity of the refrigerating compartment is reduced by the volume occupied by the partition. Therefore, the thickness of the partition wall should be as thin as possible.

However, when the thickness of the partition wall is thin, each gasket of each door may be in close contact with each other without a gap therebetween when the pair of doors are closed. In this case, when the doors are opened and closed, the gaskets of the doors rub against each other.

Such friction between the gaskets leads to deformation and damage of the gasket of the door, and thus not only does the refrigerator compartment not be completely sealed, but also shortens the life of the door. Furthermore, friction between the gaskets causes a user to open the door.

The present invention has been made to solve the above problems, an object of the present invention is to provide a refrigerator door assembly and a refrigerator using the same, which is configured to open and close a food storage room without a pair of doors interfere with each other.

Another object of the present invention is to improve the structure of the door so that the user can easily open the door.

In one embodiment of the present invention for achieving the above object, a pair of doors disposed to face each other in the main body of the refrigerator; First gaskets fixed to the doors; And extends from the first gasket, attachable to and detachable from each of the doors, and maintains contact with the other door while falling from the one door when one of the pair of doors is opened; Provided is a door assembly of a refrigerator comprising a second gasket configured to slide freely from another door that is in contact when one door is rotated by a predetermined angle.

According to an aspect of the present invention, the first gasket may be fixed to the edge of the door to be in close contact with the front edge of the body when the door is closed to seal between the door and the body.

According to another feature of the invention, the door assembly is provided in the interior of the first gasket, when the door is closed may further comprise a magnet in close contact with the body of the first gasket.

According to another feature of the present invention, the second gasket may extend from the first gasket and may be formed to at least partially wrap an end portion of the other door facing one of the pair of doors. .

According to another feature of the present invention, the door assembly is provided in the interior of the second gasket, and further comprises a magnet for adhering the second gasket to the main body and the respective doors when the door is closed. Can be.

According to another feature of the invention, the second gasket, when the respective doors are closed, the second gasket provided in the one door is in close contact with the other second gasket provided in the other door It can be configured to seal between a pair of doors.

According to another feature of the present invention, the door assembly has a different polarity inside each of the second gaskets such that the second gaskets provided in the doors are stuck together until the door rotates a predetermined angle. It may further comprise a pair of magnets installed to have.

According to another feature of the invention, the second gasket includes: a first part extending from the first gasket and bent from the one of the doors while being bent relative to the first gasket when the one of the doors is opened; And a second part extending from the first part so as to surround an end of the one door, and falling from the one door together with the first part when the one door is opened. have.

Here, the second part maintains contact with the other door until the one door rotates by a predetermined angle, and when the one door rotates more than the predetermined angle, the second part is slipped from the other door without sliding. It can be configured to.

According to another feature of the invention, the door assembly is provided in the interior of the first gasket and the second gasket, when the door is opened, the elastic member which pushes the second gasket toward the main body side to be separated from the door It can be made to include more. Here, the elastic member may include a bent portion formed at a predetermined angle bent at a position corresponding to the connection portion of the first gasket and the second gasket.

According to another feature of the present invention, the door assembly may further include a frame installed inside the second gasket to maintain the shape of the second gasket when the door is opened. Here, the frame may be formed along the inner surface of the edge of the second gasket.

According to another feature of the present invention, the door assembly further includes a frame extending from an end of the elastic member and disposed inside the second gasket to maintain the shape when the door is opened. Can be done. Here, the elastic member and the frame may be formed separately or integrally formed. In addition, the elastic member and the frame may be configured to maintain a predetermined angle bent with each other when the door is opened and closed.

On the other hand, in another aspect of the present invention for achieving the above object, a pair of doors disposed to face each other in the main body of the refrigerator; First gaskets fixed to the doors; A first part extending from the first gasket and detachable from the door, and a second part extending from the first part and positioned away from the door to be positioned between the pair of doors 2 gaskets; And it provides a door assembly of the refrigerator comprising a pair of magnets built to have a different polarity in the second gaskets of each door.

In another aspect of the present invention for achieving the above object, a pair of doors disposed to face each other on the main body of the refrigerator; First gaskets fixed to the doors; A second part extending from the first gasket and including a first part capable of falling away from the door and a second part extending from the first part and positioned away from the door so as to be located between the pair of doors gasket; And a resilient member embedded in the first gasket and the second gasket and including an elastic member bent at an angle to the main body with respect to a portion located in the second gasket and positioned in the first gasket. .

According to another aspect of the present invention for achieving the above object, a main body having at least one food storage room; A pair of doors disposed to face each other to open and close the food storage room; First gaskets fixed to the doors; And a second part extending from the first gasket and detachable from the door, and a second part extending from the first part and positioned away from the door to be positioned between the pair of doors. Provided is a refrigerator comprising a gasket.

According to an aspect of the present disclosure, the refrigerator may further include a pair of magnets embedded in the second gaskets of the doors to have different polarities.

According to another feature of the invention, the refrigerator is built in the first gasket and the second gasket, the elastic member is bent at a predetermined angle toward the main body side with respect to the portion located in the first gasket and the portion located in the first gasket. It may be made to include more.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention in which the above object can be specifically realized are described with reference to the accompanying drawings. In describing the embodiments, the same names and symbols are used for the same components, and additional description thereof will be omitted below.

1 is a perspective view showing a refrigerator according to the present invention, Figure 2 is a plan view showing the refrigerator of FIG. Referring to these drawings, the refrigerator 100 according to the present invention includes at least one food storage chamber, for example, a main body 110 having a refrigerating chamber 101 and a freezing chamber 102, and the main body to open and close the refrigerating chamber 101. It comprises a door assembly according to the invention coupled to the hinge assembly 105 by 110, and a third door 140 for opening and closing the freezer compartment (102).

In the refrigerator 100 according to the present invention, the refrigerating compartment 101 is provided at an upper portion of the main body 110, for example, and the freezing compartment 102 is provided at a lower portion of the main body 110. In addition, the third door 140 is configured to open and close the freezer compartment 102 while sliding in the front-rear direction of the main body 110. The door assembly may include a pair of doors 120 configured to open and close the refrigerating compartment 101 while rotating without mutual interference.

The freezer compartment 102 is defined by a bottom 103, a bottom side, a rear face of the main body 110, and a partition 103 partitioning the refrigerating compartment 101 and the freezing compartment 102. Here, the freezing compartment 102 is sealed by the gasket (not shown) provided on the edge of the third door 140 in close contact with the front edge of the freezing compartment 102. In more detail, a magnet is embedded in the gasket, for example, so that when the third door 140 closes the freezing compartment 102, the gasket of the third door 140 is connected to the main body. 110 and the front surface of the partition 103, thereby completely sealing the freezer compartment (102).

In comparison, the refrigerating compartment 101 is defined by an upper surface, an upper side surface, a rear surface of the main body 110, and the partition 103 that divides the refrigerating compartment 101 and the freezing compartment 102. In the refrigerator 100 according to the present invention, the refrigerating compartment 101 is designed to have a larger internal volume than the freezing compartment 102. Accordingly, in order to conveniently open and close the large refrigerating compartment 101, the pair of doors 120 are provided with a pair, as shown in FIGS. 1 and 2, to both sides of the main body 110. Are arranged to face each other.

As shown in FIGS. 1 and 2, the refrigerator compartment 101 is sealed by first gaskets 210 fixed to inner edges of the doors 120, respectively, in close contact with the front edge of the refrigerator compartment 101. . In more detail, a magnet is embedded in each of the first gasket 201, and accordingly, when each door 120 closes the refrigerating compartment 101, a first gasket of each door 120 is provided. The refrigerating chamber 101 is sealed by attaching 201 to the front surfaces of the main body 110 and the partition 103, respectively.

On the other hand, in the refrigerator (101) in the refrigerator 100 according to the present invention, in order to increase the volume of the refrigerator compartment 101 and to store food having a long or large volume in the refrigerator compartment (101) Unlike the related art, partition walls for dividing the refrigerating compartment 101 into two spaces separated from each other are not provided. Accordingly, the gap between the doors 120 is hard to be sealed by only the first gasket 210.

Accordingly, a pair of second gaskets 220 are disposed at portions of the doors 120 facing each other so that the cold air of the refrigerating chamber 101 does not leak through the gaps between the doors 120. It is provided to cover the gap as shown in FIG. The second gasket 220 extends from the first gasket 210 of each door 120, and is formed to at least partially wrap an end portion of each of the doors 120 facing each other. The pair of second gaskets 220 formed as described above are in close contact with each other between the pair of doors 120 when the doors 120 are closed. As a result, even if there are no partition walls dividing the refrigerating compartment 101 into two spaces, the middle portion of the refrigerating compartment 101 may be sealed.

However, when any one of the pair of doors 120 is opened or closed while rotating, the pair of second gaskets 220 in close contact with each other may rub against each other while sliding. As a result, the second gasket 220 is deformed or damaged, whereby cold air of the refrigerating compartment 101 leaks to the outside and the life of the door 120 may be shortened. Accordingly, in the door assembly according to the present invention, the second gasket 220 is configured to slide without sliding against the other door 120 that was in contact when one of the pair of doors 120 is opened. . 4 illustrates a unique structure of the second gasket 220 according to the present invention. Hereinafter, the structure of the second gasket 220 will be described in more detail with reference to FIG. 4.

The second gasket 220 extends from the first gasket 210 as shown in FIG. 4. The first gasket 210 is fixed not to be separated from the door 120, while the second gasket 220 may be separated from the door 120 without being fixed to the door 120. For example, as shown in FIG. 4, the second gasket 220 extends to bend from the first part 221 extending from the first gasket 210 and the first part 221 to the door. And a second part 222 surrounding the end of the 120.

The first part 221 extends from the first gasket 210 but is not fixed to the door 120. Accordingly, the first part 221 may be bent from the door 120 while being bent relative to the first gasket 210. The second part 222 extends from the first part 221 to bend outwardly of the main body 110 and is disposed between the pair of doors 120. Since the second part 222 is not fixed to the door 120, the second part 222 may be separated from the door 120 together with the first part 221.

As shown in FIG. 2, the second gasket 220 configured as described above has the second gasket 220 of the door 120, the main body 110, and the other door 120 when the doors 120 are closed. Are closely attached to each other to seal the gap between the door 120 and the main body 110 and between the pair of doors 120. When any one of the pair of doors 120 rotates in this state, the first gasket 210 fixed to the door 120 moves together with the door 120, whereas the door 120 is moved from the door 120. The detachable second gasket 220 does not move together with the open door 120 because the second gasket 220 is in close contact with another second gasket 220 provided in the other door 120 as shown in FIG. 5. Away from the door 120.

In this process, the second gasket 220 provided in the open door 120 is in contact with the second gasket 220 provided in the other door 120 until the open door 120 rotates more than a predetermined angle. Maintaining the state, and sequentially from the second gasket 220 provided in the other door 120 from the portion close to the far from the main body 110 without slipping. After the opening door 120 is rotated by a predetermined angle or more, the second gasket 220 provided in the opening door 120 is provided in the other door 120 as illustrated in FIGS. 6 and 7. After completely slipping away from the second gasket 220, it moves together with the open door 120.

As described above, according to the present invention, a pair of second gaskets 220 for sealing a gap between the pair of doors 120 are provided detachably from the door 120. Therefore, when any one door 120 is opened, the pair of second gaskets 220 are not slipped from each other, thereby preventing damage and breakage of the second gasket 220, and Longer lifespan

For a more complete sealing, the pair of second gaskets 220 are provided with magnets 205 having different polarities, for example, as shown in FIGS. 3 and 4. The magnet 205 is disposed in the first part 221 and the second part 222, for example. Then, a part of the magnet 205 disposed in the first part 221 may be configured such that the second gasket 220 is completely connected to the door 120 and the main body 110 when the door 120 is closed. The other part of the magnet 205 disposed in the second part 222 is such that the pair of second gaskets 220 are completely in contact with each other when the doors 120 are closed. To help.

Meanwhile, the present invention further provides a structure in which the door 120 can be pushed out of the main body 110 by elasticity when the handle 125 of the door 120 is pulled to open the refrigerating compartment 101. . This is because the second gasket 220 elastically pushes the door 120 out of the main body 110 when the handle 125 is pulled by the user and the door 120 is separated from the main body 110. This is to accelerate the opening of the door 120, thereby allowing the user to easily open the door 120. This will be described in more detail below.

As shown in FIG. 4, the elastic member 230 is embedded in the first gasket 210 and the second gasket 220. The elastic member 230 pushes the second gasket 220 toward the main body 110 when the door 120 is opened, so that the door 120 is easily separated from the main body 110 by the reaction force. To be opened. More specifically, one end of the elastic member 230 is embedded in the first gasket 210, as shown in Figure 4, the other end of the elastic member 230 of the second gasket 220 It is embedded in the first part 221. In addition, a position corresponding to a connection portion between the first gasket 210 and the second gasket 220 is formed at a predetermined angle bent portion. Accordingly, the other end of the elastic member 230 located in the first part 221 of the second gasket 220 may be connected to one end of the elastic member 230 located in the first gasket 210. Maintaining a predetermined angle bent to the body 110 side.

When the door 120 is closed, the elastic member 230 is opened and elastic energy is accumulated in the elastic member 230. When the door 120 is pulled slightly, the elastic restoring force of the elastic member 230 pushes the first part 221 of the second gasket 220 toward the main body 110 while overcoming the magnetic force of the magnet. Serve Then, the first part 221 is pushed toward the main body 110 while being bent with respect to the first gasket 210. However, since the main body 110 cannot be pushed, the door 120 is closed by the reaction force of the second gasket 220 that is pushed toward the main body 110 by the elastic member 230. 110) pushed outward. As a result, the opening of the door 120 is accelerated, and the door 120 is opened very easily.

Meanwhile, as shown in FIG. 4, a frame 240 is installed in the second gasket 220 to maintain the shape of the second gasket 220 when the door 120 is opened. The frame 240 is installed along the inner surface of the edge of the second gasket 220, for example. Therefore, even when the second gasket 220 is separated from the door 120, the shape of the second gasket 220 is maintained by the frame 240, whereby the refrigerator 100 when the door 120 is opened. ) Can be prevented from significantly worsening.

For example, the frame 240 may be manufactured separately from the elastic member 230 and bent to the elastic member 230. In this case, the elastic member 230 may be made of a metal material having good elasticity, and the frame 240 may be made of a synthetic resin material having good light and strength. However, the present invention is not limited thereto, and the frame 240 may be integrally formed with the elastic member 230.

The elastic member 230 and the frame 240 are maintained at a predetermined angle as shown in FIG. Then, the first part 221 and the second part 222 of the second gasket 220 are angled by the elastic member 230 and the frame 240 when the door 120 is opened or closed. It is possible to maintain the bent state. As a result, when the door 120 is opened or closed, the second gasket 220 may drop or attach to the end of the door 120 without sliding.

Hereinafter, a process of opening and closing the door assembly in the present invention having the above-described structure will be described with reference to FIGS. 5 to 9. First, when one of the pair of doors 120 is pulled, the elastic member 230 pushes the second gasket 220 toward the main body 110. As a result, the first part 221 of the second gasket 220 is bent from the open door 120 while being bent relative to the first gasket 210. At this time, the second part 222 of the second gasket 220 provided in the open door 120 is in close contact with the second gasket 220 provided in the other door 120 by the magnet 205. Stay intact.

As the rotation angle of the door 120 increases, the first part 221 is gradually bent with respect to the first gasket 210. In addition, the second part 222 of the second gasket 220 provided in the open door 120 starts from a portion close to the main body 110 from the second gasket 220 provided in the other door 120. Gradually falls to the far part. At this time, no sliding or friction occurs between the pair of second gaskets 220. Therefore, when the door 120 is rotated by a predetermined angle or more, as shown in FIGS. 6 and 7, the pair of second gaskets 220 are safely dropped without mutual slip or friction.

In contrast to the above, when the door 120 is closed, the pair of second gaskets 220 are in close contact with each other while sequentially contacting from the distant to the close to the main body 110. Accordingly, even when the door 120 is closed, no slip or friction occurs between the pair of second gaskets 220. On the other hand, as shown in Figures 8 and 9, the same principle as above applies to each door 120 is opened or closed at the same time.

Although several embodiments have been described above, it will be apparent to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof. Accordingly, the described embodiments are to be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are included within the scope of the present invention.

As described above, the door assembly according to the present invention, by the second gasket provided to be detachable and attached to the door, the pair of doors can open and close one food storage room without mutual interference.

This prevents slippage and friction between gaskets provided between the pair of doors when opening and closing the door, thereby preventing deformation and breakage of the gasket for sealing the food storage chamber. Therefore, not only the cold air leakage of the food storage chamber due to deformation and breakage of the gasket can be effectively prevented, but also the life of the door assembly becomes long.

In the present invention, an elastic member is installed between the first gasket fixed to the door and the second gasket extending from the first gasket. Therefore, when the door is pulled to open the food storage chamber, the second gasket is pushed to the main body by the elasticity of the elastic member, and the opening of the door is accelerated by the reaction force. Therefore, the user can conveniently open the door with little force.

Claims (23)

A pair of doors disposed to face each other in the main body of the refrigerator; First gaskets fixed to the doors; Extends from the first gasket, attachable to and detachable from each of the doors, maintains contact with the other door while falling from the one door when one of the pair of doors is opened; A second gasket configured to slide without sliding from the other door that was in contact when one door was rotated by a predetermined angle; And And a frame installed inside the second gasket to maintain the shape of the second gasket when the door is opened. The method of claim 1, The first gasket, The door assembly of the refrigerator characterized in that when the door is closed close to the front edge of the main body is fixed to the edge of the door to seal between the door and the main body. The method of claim 1, And a magnet provided inside the first gasket, the magnet being in close contact with the main body when the door is closed. The method according to claim 1 or 2, The second gasket, The door assembly of the refrigerator, which extends from the first gasket and is formed to at least partially wrap an end portion of the other door facing one of the pair of doors. The method of claim 1, And a magnet provided inside the second gasket, the magnet being in close contact with the main body and the doors when the door is closed. The method of claim 1, The second gasket, And when the doors are closed, a second gasket provided in one of the doors is in close contact with another second gasket provided in the other door to seal between the pair of doors. Door assembly. The method of claim 6, It further comprises a pair of magnets installed to have different polarities in the interior of each of the second gaskets so that each of the second gaskets provided in the doors are stuck together until the door rotates by a predetermined angle. Door assembly of the refrigerator. The method of claim 1, The second gasket, A first part extending from said first gasket and bent from said one door while being bent relative to said first gasket when said one door is opened; And A bent extending from the first part so as to surround an end of the one door, and including a second part falling from the one door together with the first part when the one door is opened. Door assembly. The method of claim 8, The second part, The door is maintained in contact with the other door until the one of the door rotates by a predetermined angle, when the one of the door is rotated more than a predetermined angle is configured to slide away from the other door of the refrigerator Door assembly. The method of claim 1, And a resilient member provided inside the first gasket and the second gasket, the second gasket being pushed toward the main body and separated from the door when the door is opened. The method of claim 10, The elastic member, The door assembly of the refrigerator comprising a bent portion bent at a predetermined angle at a position corresponding to the connecting portion of the first gasket and the second gasket. delete The method of claim 1, The frame is a door assembly of the refrigerator, characterized in that formed along the inner surface of the edge of the second gasket. The method of claim 10, The frame extends from an end of the elastic member. The method of claim 14, The door assembly of the refrigerator, characterized in that the elastic member and the frame is formed separately. The method of claim 14, The door assembly of the refrigerator, characterized in that the elastic member and the frame are integrally formed. The method of claim 14, The elastic member and the frame, the door assembly of the refrigerator, characterized in that configured to maintain a bent state with a predetermined angle when the door is opened and closed. A pair of doors disposed to face each other in the main body of the refrigerator; First gaskets fixed to the doors; A second part including a first part extending from the first gasket and detachable from the door and a second part extending from the first part and positioned away from the door to be positioned between the pair of doors gasket; And And a pair of magnets embedded in the second gaskets of the doors to have different polarities. A pair of doors disposed to face each other in the main body of the refrigerator; First gaskets fixed to the doors; A second part extending from the first gasket and including a first part capable of falling away from the door and a second part extending from the first part and positioned away from the door so as to be located between the pair of doors gasket; And The door assembly of the refrigerator comprising an elastic member embedded in the first gasket and the second gasket, wherein a portion located in the second gasket is bent at an angle to the main body with respect to a portion located in the first gasket. A body having at least one food storage room; A pair of doors disposed to face each other to open and close the food storage room; First gaskets fixed to the doors; And A second gasket comprising a first part extending from the first gasket and detachable from the door and a second part extending from the first part and positioned away from the door so as to be located between the pair of doors Refrigerator consisting of. The method of claim 20, And a pair of magnets built in the second gaskets of the doors to have different polarities. The method of claim 20, And a resilient member embedded in the first gasket and the second gasket, wherein a part located in the second gasket is bent at an angle to the main body with respect to a part located in the first gasket. The method of claim 20, And a frame installed inside the second gasket to maintain the shape of the second gasket when the door is opened.

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