KR100389419B1 - Structure of Door Damping for Chesr Type Refrigerator - Google Patents

Abstract

The present invention relates to a door damping structure of a box-type refrigerator in which the door of the refrigerator is opened and closed at an upper surface of the main body. According to the present invention, the main body hinge 80 provided on the main body 54 and the door hinge 60 provided on the door 52 are coupled by the hinge shaft 66 to form a hinge assembly, and the door 52 Spring (74) performing a damping function for the opening and closing of the) is interposed between the door hinge 60 and the main body hinge (80). The bush 76 supporting the lower end of the spring 74 and having the friction hole 77 formed thereon is provided at the main hinge 80 while supporting the lower end of the spring 74. In addition, a hinge joint 70 having a bead 83 formed therein to perform a second damping function by friction with the friction hole 77 while vertically moving is inserted into the spring 74. According to the configuration as described above, it operates smoothly not only when the door is closed but also when it is opened.

Description

Box of Refrigerator Door Damping Structure {Structure of Door Damping for Chesr Type Refrigerator}

The present invention relates to a refrigerator, and more particularly, to a box-type refrigerator in which a door for opening and closing the refrigerator is provided on an upper surface thereof, and relates to a box-type refrigerator door damping structure for smoothing the opening and closing operation of the door.

First, a door damping structure of a conventional box-type refrigerator will be described based on FIGS. 1 to 3. As shown in FIG. 1, in the box-shaped refrigerator, a door 2 is provided at the upper portion of the refrigerator main body 4. The door 2 is supported by the hinge assembly 6 installed at the rear of the refrigerator, thereby opening and closing the main body 4 in which the storage space is formed.

As shown in FIG. 2, the hinge assembly 6 includes a door hinge 10 fixed to the rear surface of the door 2 and a body hinge 30 fixed to the rear surface of the main body 4. The door hinge 10 and the main body hinge 30 are rotatably connected to each other by the hinge shaft 16. The support shaft 18 is molded in the shape of a bar in the horizontal direction under the door hinge 10. And the hinge joint 20 is installed in the vertical direction in the lower portion of the support shaft 18.

The washer 22 is fixed in the middle of the hinge joint 20. A spring 24 is inserted into a lower portion of the washer 22 in the hinge joint 20, and a lower end of the spring 24 is supported by the bush 26. The bush 26 is supported by being mounted on the supporter 28 and gives a predetermined length to the spring 24. The supporter 28 is fixed to the body hinge 30.

The overall operation of the conventional door damping structure having the above configuration will be described. When the door 2 is opened, the door hinge 10 is rotated upward with the hinge axis 16 as the center of rotation. When the door hinge 10 is rotated upward as described above, the spring 24 is stretched by the elastic restoring force of the winrae.

Then, when the user closes the door 2, the door hinge 10 is closed while rotating about the hinge axis 16 in the opposite direction, wherein the spring 24 is compressed. When the door is closed as described above, the door 2 is slowly closed by the compression of the spring 24 to function as a damper that the impact on the main body 4 becomes small.

The following problems are raised in the box-type refrigerator door damping structure according to the prior art, which is constructed and operated as described above.

When the door 2 is closed, the door 2 is slowly closed while the spring 24 is compressed, but when the door 2 is opened, the door 2 is easily opened while the spring 24 is expanded. The door 2 is configured by a hinge assembly including a door hinge 10 and a main body hinge 30 so as not to be opened at a predetermined angle or more.

In the above configuration, when the door 2 is opened and closed, the elastic modulus of the spring 24 and the rotation moment of the door 2 must be balanced with each other so that the refrigerator body 4 is opened quickly when the door 2 is opened. Will not be impacted. However, at the time of use of the general door 2, when the door 2 is opened, the point where the door 2 achieves the above-mentioned balance force is excessively exceeded, and the impact of the door in which the refrigerator main body 4 opens to the rear substantially. There is a disadvantage that the main body flows.

In addition, when the door is suddenly opened and the door is flipped backward by the elastic force of the spring, there is a fear that the hinge is substantially damaged, which adversely affects the reliability of the product as a whole.

The present invention is to solve the above problems, an object of the present invention is to provide a door damping structure that can minimize the impact applied to the body by the door when opening and closing the door.

1 is a top perspective view of a box refrigerator according to the prior art.

Figure 2 is a perspective view showing the configuration of a hinge assembly according to the prior art.

Figure 3 is an exploded perspective view showing the configuration of the hinge assembly according to the prior art.

Figure 4 is a side cross-sectional view showing an embodiment of the door damping structure according to the present invention in the closed state.

Figure 5 is a side cross-sectional view showing an embodiment of the door damping structure according to the present invention in the door open state.

6 is a perspective view schematically showing the main part of the present invention;

* Description of the symbols for the main parts of the drawings *

2,52 ... door 4,54 ... refrigerator body

6 ......... Hinge assembly 10,60 ...... Door hinge

16,66 ..... Hinge Shaft 18,68 ...... Support Shaft

20,70 ..... Hinge joint 22,72

24,74 ..... spring 26,76 ...... bush

28,78 ..... Supporters 30,80 ...... Main body hinge

69 ......... Guide hole 77 ......... Friction hole

83 ......... Bead

According to a feature of the present invention for achieving the above object, the present invention is a box-shaped refrigerator having a main body having a storage space for storing food and the main body to open and close the main body, the rear of the door Is installed in the door hinge pivoting with the door around the hinge axis, coupled to the door hinge, the body hinge is installed on the rear of the main body, the upper end to be in close contact with the support shaft of the door hinge A hinge joint supported by the main body hinge and having a bead in the longitudinal direction on at least one side thereof, and a friction hole through which the hinge joint passes up and down and rubbed with the bead is formed to be damped by friction between the bead and the friction hole. It is configured to include a bush to make.

The box-shaped refrigerator door damping structure is characterized in that the hinge joint and the friction hole have a cross section in the shape of a rectangle, and the beads are protruded on one side of the hinge joint.

According to the configuration as described above, the flow of the entire refrigerator is lost by slowly opening and closing the door.

Next, the present invention will be described in detail with reference to FIGS. 4 to 6 with an embodiment of the box-type refrigerator door damping structure.

As shown in FIGS. 4 and 5, the door 52 is installed on the upper surface of the main body 54 to open and close the refrigerator main body 54. The rear door 52 is provided with a door hinge 60 that rotates with the door 52 around the hinge shaft (66).

In addition, a rear surface of the main body 54 is provided with a main body hinge 80 that is coupled to the door hinge 60 by the hinge shaft 66 to form a hinge assembly.

The support shaft 68 is installed in the lower portion of the door hinge 60 in parallel with the hinge shaft 66, and the hinge joint 70 is connected to the lower portion of the support shaft 68. That is, the support shaft 68 is accommodated in the concave groove formed at the upper end of the hinge joint 70, and at this time, supporting the hinge joint 70 upward is a spring 74 described below. This is due to the elastic restoring force of).

On one side of the hinge joint 70, the beads 83 are protruded in a rectangular shape. A washer 72 is formed in the center portion of the hinge joint 70 in the transverse direction with respect to the hinge joint 70. The washer 72 is in close contact with the upper end of the spring 74 to be described below serves as an upper fixed end of the spring (74).

A spring 74 is inserted into the hinge joint 70. The spring 74 extends and compresses according to opening and closing of the door 52, and provides rotational force to the door 52 through an elastic restoring force.

The lower end of the spring 74 is supported by the bush 76. The bush 76 has a circumferential outer circumferential surface, a friction hole 77 is formed therein, and has a supporter 78 extending and molded to the outer circumference of the bush. A hinge joint 70 having the bead 83 is inserted into the friction hole 77 to reciprocate up and down.

At this time, the sum of the thickness of the hinge joint 70 and the thickness of the bead 83 is the friction hole 77 on the premise that the friction hole 77 can flow up and down in the friction hole 77. The dimensions are determined to be press fit into Therefore, when the hinge joint 70 moves up and down, the hinge joint 70 rubs against the inner circumferential surface of the bush 76.

In addition, the supporter 78 serves as a lower fixed end while supporting the lower end of the spring 74.

Therefore, the upper part of the hinge joint 70 is supported by the support shaft 68, and the lower part is supported by the bush 76 through the spring 74.

In addition, a supporter 78 for supporting the bush 76 is installed below the bush 76. The bush 76 is mounted on the supporter 78, and the supporter 78 is fixed to the main body hinge 80 by fixing protrusions (not shown) protruding on both sides.

Next, an operation process of the box-type refrigerator door damping structure having the above configuration will be described.

The spring 74 is in a compressed state with the door 52 closed. As shown in FIG. 5, in the state in which the spring 74 is compressed, the upper portion of the hinge joint 70 is inclined rearward (in the figure at 11 o'clock), and the hinge shaft 66 Since the support shaft 68 is not on the right side, the door 52 is not opened but closed only by the elastic restoring force of the spring 74.

In the above state, when the user opens the door 52, the door 52 and the door hinge 60 are rotated together in the counterclockwise direction with respect to the hinge axis 66. When the door hinge 60 rotates in the counterclockwise direction, the support shaft 68 fixed to the door hinge 60 moves to the front upper part (upper right side in the drawing) under the guidance of the guide hole 69. .

As the support shaft 68 moves upward, the hinge joint 70 also moves upward and forward (upper and right in the drawing) by the elastic restoring force of the spring 74. That is, the elastic restoring force of the spring 74 using the bush 76 as an operating point is transmitted to the door 52 through the hinge joint 70 to change the rotational force of the door 52.

In addition, the door 52 is momentarily stopped while the rotation force of the door 52 and the gravity acting on the door 52 are balanced in a state where the door 52 is opened by a predetermined angle, and the door 52 passes the moment when the door 52 is stopped. ) Opens more rapidly, impacting the main body (54).

However, the damping function by the friction between the hinge joint 70 and the friction hole 77 according to the present invention minimizes the amount of impact acting on the main body 54 at the moment the door 52 is fully opened. The opening operation of is smoother and smoother.

That is, when the hinge joint 70 moves upward, one side of the inner circumferential surface of the friction hole 77 is in contact with the bead 83, and the opposite side of the inner circumferential surface that is in contact with the bead 83 is the hinge joint ( In contact with the surface of 70, the side surfaces of the bead 83 and the hinge joint 70 is in friction with the inner peripheral surface of the friction hole (77). The friction generated as described above substantially acts as a damping function against the hinge joint 70 moving upward.

Therefore, when the door 52 is opened, the door 52 is opened by the damping action caused by the frictional force generated by the friction between the bead 83 and the hinge joint 70 by the friction hole 77. Is opened slowly and smoothly, and at the same time, the moment the door is fully opened, the impact of the main body 54 due to the rotational force of the door 52 can be minimized.

And, by forming the bead 83 in only a portion of the hinge joint 70, even if the thickness of the bead 83 and the thickness of the hinge joint 70 is equal to the width of the friction hole 77, the bead ( The hinge joint 70 in which the 83 is formed may flow up and down the friction hole 77. The lower end of the bead 83 has a sharp shape such as a wedge shape so that the hinge joint 70 formed with the bead 83 flows smoothly.

Next, a process of closing the door 52 will be described. In the state in which the door 52 is completely opened, the elastic restoring force by the spring 74 and the gravity acting on the door 52 are balanced, and the door 52 is stopped in the open state.

At this time, when the user closes the door 52 by applying an external force, the door hinge 60 together with the door 52 rotates clockwise (based on the drawing). When the door hinge 60 is rotated in the clockwise direction, the support shaft 68 is moved to the lower rear (lower left in the drawing) guided by the guide groove 69, and interlocks with the support shaft 68. The hinge joint 70 is also moved to the lower rear.

As the hinge joint 70 moves downward, the hinge joint 70 compresses the spring 74. At this time, a part of the kinetic energy which increases as the door 52 is closed is used to compress the spring 74. Therefore, as the spring 74 is compressed, the door 52 is slowly and gently closed so as not to impact the main body 54, thereby functioning as a damper.

On the other hand, similarly to when the door 52 is opened, the friction hole 77 of the hinge joint 70 and the bush 76 is also damper against the closing of the door 52 also when the door 52 is closed. Performs the function of.

That is, as described above, when the hinge joint 70 moves downward, one side of the bead 83 and the hinge joint 70 rubs against the inner circumferential surface of the friction hole 77, thereby reducing friction. Generate. The friction force generated as described above also acts as a damper when the door 52 is closed, thereby mitigating kinetic energy until the door 52 is closed to minimize the amount of impact applied to the main body 54. . This means that the operation of the door 52 proceeds more smoothly even until the door 52 is closed.

That is, in the process of closing the door, the process of compressing the spring 74 not only performs a damping function, but also friction between the hinge joint 70 and the inner surface of the friction hole 77 of the bush 76. It acts as a damping mechanism for the closing of (52).

On the other hand, the cross-section of the friction hole 77 and the hinge joint 70 according to the present invention has a rectangular shape, but is not limited to this, and the friction hole 77 and the vertical movement of the hinge joint 70. Any shape can be used as long as it can act as a damping function for opening and closing of the door 52 by friction.

In addition, the bead 83 according to the present invention is formed to protrude only on one side of the hinge joint 70, but is not limited to this, of course, in close contact with the friction hole 77 to increase the friction force, for example, Another embodiment of the invention is a structure that is protruded on both sides of the hinge joint 70, any shape is irrelevant.

Therefore, the present invention is characterized in that it is provided with another damping means in addition to the above-described spring performing the damping function. The other damping means as described above substantially utilizes the frictional force, and is achieved by providing a constant frictional force during the vertical movement of the hinge joint as described above.

The above embodiments of the present invention are merely one embodiment of the technical idea of the present invention, and of course, other modifications are possible within the technical idea of the present invention.

The present invention having the configuration and operation as described above is expected the following effects.

As the hinge joint having a rectangular bead protrudingly formed on one side moves up and down with a friction hole formed in the bush, the door is smoothly opened and closed due to friction between the bead and the inner circumferential surface of the friction hole.

As described above, the door is opened and closed smoothly without impacting the main body, thereby improving the reliability of the product and providing a user with a comfortable environment.

Further, by installing a bead in a portion of the hinge joint, there is an advantage that the hinge joint smoothly flows into the friction hole formed in the bush so as to move up and down.

Claims (3)

In the box-type refrigerator having a main body having a storage space for storing food and the main body to open and close the main body, A door hinge installed at a rear side of the door to rotate together with the door about a hinge axis; A main body hinge coupled to the door hinge and installed at a rear side of the main body; A hinge joint supported by the main body hinge so as to be elastically supported upwardly in close contact with a support shaft of the door hinge, and having a bead in a longitudinal direction on at least one side thereof; And, Box hinge refrigerator damping structure characterized in that it comprises a bush for the hinge joint passes up and down and the friction hole is rubbed with the bead is formed to damp the action by the friction between the bead and the friction hole. The box-type refrigerator door damping structure of claim 1, wherein a cross section of the hinge joint and the friction hole has a quadrangular shape, and the bead is protruded from one side of the hinge joint. delete