JP2004361032A - Shelf lift for refrigerator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lift for suppressing the occurrence of shock and noises at a lowering end point of a shelf. <P>SOLUTION: The lift lifts up and down the shelf 40 provided in a refrigerator as held in a horizontal condition by a link mechanism 10. It comprises at least an absorber 20 for restricting the turn of the link mechanism 10 so that the shelf 40 rests at the lowering end point of the shelf 40. The shock absorbing operation of the absorber 20 suppresses the occurrence of shock and noises at the lowering end point of the shelf 40. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a shelf elevating device provided in a refrigerator.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there has been known an elevating device for elevating a shelf provided in a refrigerator by a link mechanism while maintaining a horizontal state (for example, see Patent Documents 1 and 2 below).
[0003]
However, the conventional elevating device has a problem in that when a shelf on which foods and the like are loaded is lowered, an impact and a sound are generated at a lower end point. In order to solve this problem, some springs are used to suppress the occurrence of impact or the like at the end point of descent.However, in the case of using a spring, a shelf in which no food is loaded is used. When it is lowered, the shelf does not stop at the end point of the descent, and there is a problem that the shelf rises in the ascending direction by the force of the spring.
[0004]
[Patent Document 1] JP-A-6-101960 [Patent Document 2] JP-A-2001-336873
[Problems to be solved by the invention]
The present invention has been made in view of the above circumstances, and it is possible to suppress the generation of impact and sound at the end point of descent of a shelf provided in a refrigerator, and to lower a shelf in which no food or the like is loaded. Another object of the present invention is to provide an elevating device capable of stopping a shelf at a descending end point.
[0006]
[Means for Solving the Problems]
In order to solve the above problem, in the present invention according to claim 1, a lifting device that raises and lowers a shelf provided in a refrigerator while maintaining a horizontal state by a link mechanism, wherein at least a descent end point of the shelf And an absorber for regulating the rotation of the link mechanism so that the shelf is stationary.
According to the second aspect of the present invention, the link mechanism is substantially orthogonal to a first link member supporting the absorber and an axis of a rod of the absorber. The lifting device according to claim 1, further comprising a second link member having an abutted portion that can abut. The term "rod" used herein refers to a rod-shaped body that recedes linearly when pressed to actuate an absorber, and includes a rod-shaped body having a covering material that covers the tip of the rod-shaped body.
According to a third aspect of the present invention, there is provided the elevating device according to the second aspect, wherein the tip of the rod is always in contact with the contacted portion of the second link member.
According to the fourth aspect of the present invention, when the shelf is located at the end point of ascent, the center of rotation can be located forward of the connecting portion with the shelf, and can press the rod of the absorber. The lifting device according to claim 2 or 3, wherein the first and second link members are provided so as to have an interval.
[0007]
(Function)
According to the first aspect of the present invention, since there is provided an absorber that regulates the movement of the link mechanism so that the shelf comes to rest at least at the end point of lowering of the shelf, the buffering action of the absorber causes the end point of lowering of the shelf to be stopped. The generation of impact and noise can be suppressed, and the shelf can be stopped at the end point of descent when the shelf on which no food or the like is loaded is lowered. That is, since the absorber absorbs at least the kinetic energy of the link mechanism that rotates with the lowering of the shelf by using hydraulic pressure or the like, it is possible to suppress the generation of impact and sound at the end point of lowering the shelf. In addition, when the shelf is located at the end point of descent, the load is applied to the absorber, so even when the shelf with no food or the like is lowered, the shelf is stopped at the end point of descent. It becomes possible.
According to the present invention as set forth in claim 2, the link mechanism is substantially orthogonal to the first link member supporting the absorber and the axis of the rod of the absorber, and the rod is rotated during the rotation process. The second link member having the contacted portion to which the leading end can be contacted, so that the absorber support portion of the first link member and the second link as the shelf descends. As the distance between the member and the abutted portion becomes smaller, the rod of the absorber is pressed by the second link member, and the buffering action of the absorber works. Therefore, it is possible to suppress the generation of impact and noise at the end point of the lowering of the shelf, and to stop the shelf at the end point of the lowering even when the shelf where no food or the like is loaded is lowered.
According to the third aspect of the present invention, since the tip of the rod is always in contact with the contacted portion of the second link member, the region where the absorber exerts a buffering action is moved down the shelf. It is possible to expand even more than the limited area at and near the end point, and for example, it is possible to exert the buffering effect of the absorber in all areas during the descent of the shelf. In addition, by adopting this configuration, it is possible to eliminate the collision sound between the abutted portion of the second link member and the rod of the absorber, so that the shelf can be lowered very quietly.
According to the present invention as set forth in claim 4, when the shelf is located at the end point of ascending, the center of rotation is located forward of the connecting portion with the shelf and presses the rod of the absorber. Since the first and second link members are provided so as to have an interval that can be performed, the first and second link members are not moved until the shelf is moved up from the lower end point to a certain position. As the shelf rises, the distance between the two increases, and when it reaches that position, it becomes the maximum interval, while from that position to the end of the rise, as the shelf rises , So that the interval between the two is reduced. Further, the rod of the absorber is pressed by the second link member as the distance between the first and second link members is reduced as the shelf goes up from the position where the shelf is located to the ascending end point. The buffer function of the absorber works. Therefore, it is possible to suppress the generation of the impact and the sound at the end point of the rise of the shelf.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings.
FIG. 1 is a diagram showing a main part of an elevating device according to one embodiment of the present invention. As shown in this drawing, the lifting device according to the present embodiment includes a link mechanism 10 and an absorber 20.
[0009]
The link mechanism 10 includes first and second link members 11 and 12. In the link mechanism 10 employed in the present embodiment, the first link member 11 is disposed forward (toward the front surface 40a side of the shelf 40) and the second link member 12 is disposed rearward. Is not limited to this, but adopts a configuration in which the second link member 12 is disposed forward and the first link member 11 is disposed rearward. You can also.
[0010]
The first link member 11 has a support portion 11a for supporting the absorber 20 and is formed in a substantially U-shape in a side view. One end 11b is connected to the refrigerator body (not shown) and the other end 11c is provided. Are connected to a shelf 40 provided in the refrigerator via connection shafts 30a and 30b, respectively.
[0011]
The second link member 12 is substantially orthogonal to the axis of the rod 22 of the absorber 20, and has a contact portion 12a with which the tip of the rod 22 can contact during the rotation process. One end 12b is connected to a refrigerator main body (not shown), and the other end 12c is connected to a shelf 40 provided in the refrigerator via connection shafts 30c and 30d, respectively.
[0012]
The first and second link members 11 and 12 interposed between the refrigerator body and the shelf 40 are arranged so that the shelf 40 can be moved up and down while maintaining the horizontal state. In a preferred embodiment of the installation method, it is arranged as shown in FIG.
[0013]
That is, FIG. 1 shows a state in which the shelf 40 is located at the end point of ascent. At this time, the first and second link members 11 and 12 are respectively rotated about the rotation center (the connection shaft 30a). , 30c) are located forward (in the direction of the front 40a side of the shelf 40) from the connection with the shelf 40 (each axis of the connection shafts 30b, 30d), and press the rod 22 of the absorber 20. It is preferable to be provided so as to have the obtained interval D (the distance between the support portion 11a of the first link member 11 and the contacted portion 12a of the second link member 12).
[0014]
Any type of absorber 20 may be used as long as it has a piston 23 slidably provided in a casing 21 and a rod 22 connected to the piston 23 and having a distal end protruding outside. For example, the one shown in FIG. 2 can be used.
[0015]
The absorber 20 has a rubber bellows 24 having a peripheral edge fixed to the casing 21 and an inner edge fixed to the outer periphery of the rod 22, and is disposed on the pressing surface side of the piston 23, and has a plurality of through holes penetrating in the thickness direction. A valve member 26 having a hole 25 is provided. A spring 28 for urging the piston 23 in the return direction is provided between a spring receiver 27 provided so as to movably interpose the valve member 26 with the pressing surface of the piston 23 and the inner surface of the bottom wall of the casing 21. The space formed by the rubber bellows 24 and the peripheral wall and the bottom wall of the casing 21 is filled with a viscous fluid.
[0016]
Note that the piston 23 has an outer diameter such that a slight gap is formed between the outer peripheral surface and the inner surface of the peripheral wall of the casing 21, and this gap functions as an orifice.
[0017]
In addition, the rod 22 may be composed of only the rod-shaped body 22a, but in the present embodiment, the rod 22 includes the rod-shaped body 22a and the covering material 22b provided so as to cover the tip thereof. What is composed is adopted.
[0018]
Further, when the piston 23 presses the viscous fluid with the retreat of the rod 22, the valve member 26 comes into close contact with the pressing surface of the piston 23. As a result, the through hole 25 of the valve member 26 is closed, so that the viscous fluid moves through a slight gap between the piston 23 and the casing 21, and at this time, resistance is generated and kinetic energy is absorbed. I do.
[0019]
Further, when the load on the rod 22 is removed and the piston 23 returns to the original position by the spring 28, the valve member 26 is separated from the piston 23 and adheres to the spring receiver 27. As a result, the through hole 25 of the valve member 26 is opened, so that the viscous fluid can move through the through hole 25, and as a result, the piston 23 can be quickly returned to the original position.
[0020]
When the shelf 40 is at least at the lower end point and in the vicinity of the lower end point, the absorber 20 contacts the contacted portion 12a of the second link member 12 by the second link member 12 that rotates. It is sufficient that the rod 22 is provided so as to be pressed. However, in a preferred embodiment of the method of disposing the absorber 20, the tip of the rod 22 (the tip surface of the coating material 22 b) is covered with the second link member 12. That is, it is provided so as to be always in contact with the contact portion 12a.
[0021]
That is, if there is a region where the contacted portion 12a of the second link member 12 and the tip of the rod 22 of the absorber 20 are separated during the rotation process of the first and second link members 11, 12, the shelf 40 When moving the second link member 12, a collision sound between the second link member 12 and the rod 22 is generated, but the tip of the rod 22 always contacts the contacted portion 12 a of the second link member 12. If the second link member 12 and the rod 22 do not collide, the shelf 40 can be lowered very quietly.
[0022]
Also, for example, when the shelf 40 is located at the ascending end point, the center of rotation (each axis of the connection shafts 30a, 30c) is connected to the shelf 40 (each axis of the connection shafts 30b, 30d). When the first and second link members 11 and 12 are arranged so as not to be located further forward (in the direction of the front 40a side of the shelf 40), as the shelf 40 is lowered from the position of the end point of ascending, The distance D (the distance between the support portion 11a of the first link member 11 and the contacted portion 12a of the second link member 12) between the first and second link members 11, 12 is gradually reduced. Since the end of the rod 22 is always in contact with the contacted portion 12a of the second link member 12, the rod 22 is pressed by the second link member 12 from the start to the end of the lowering of the shelf 40. As a result, while the shelf 40 is descending, It is possible to exhibit a buffering action of the absorber 20 in the region of all.
[0023]
As in the present embodiment, when the shelf 40 is located at the ascending end point, the center of rotation (each axis of the connection shafts 30a and 30c) is connected to the shelf 40 (the connection shafts 30b and 30d). Even when the first and second link members 11 and 12 are disposed so as to be located forward (in the direction of the front surface 40a of the shelf 40) from the respective axes of the rods 22, the distal end of the rod 22 is positioned at the second end. Is always in contact with the abutted portion 12a of the link member 12, the buffering action of the absorber 20 can be exerted in a more extended area than in a limited area such as the end point of lowering of the shelf 40 and its vicinity. It becomes possible.
[0024]
Next, the operation of the lifting device configured as described above will be described.
First, as shown in FIG. 3, the shelf 40 supported by the link mechanism 10 starts descending by being pulled out from the state at the ascending end point P, and ends descending when reaching the descending end point Q. During this time, the first and second link members 11 and 12 constituting the link mechanism 10 keep the horizontal state of the shelf 40 and move forward with the respective axes of the connecting shafts 30a and 30c as the shelf 40 descends. (Toward the front 40a side of the shelf 40).
[0025]
Also, as shown in FIG. 1, the first and second link members 11 and 12 respectively rotate around the center (the respective axes of the connecting shafts 30a and 30c) when the shelf 40 is located at the rising end point. ) Is located forward (in the direction of the front 40a side of the shelf 40) from the connection with the shelf 40 (each axis of the connection shafts 30b and 30d), so that the shelf 40 is at a predetermined position from the rising end point. While the shelf 40 descends, the distance D (the distance between the support portion 11a of the first link member 11 and the contacted portion 12a of the second link member 12) increases as the shelf 40 descends. ) Expands and the interval D becomes maximum when the shelf 40 reaches a predetermined position. That is, as shown in FIG. 4, when the shelf 40 is located at the ascending end point, the connection portion of the first link member 11 at the point A with the shelf 40 (the axis of the connection shaft 30 b) is the shelf. 40 moves to the point B by descending to a predetermined position. During this time, the interval D between the first and second link members 11 and 12 continues to increase, and the shelf 40 of the first link member 11 When the connecting portion with the point reaches the point B, the interval D becomes the maximum.
[0026]
According to the lifting device, the absorber 20 has the absorber 20 supported by the first link member 11, and the absorber 20 has the distal end of the rod 22 (the distal end surface of the coating material 22 b). Is provided so as to always contact the contacted portion 12a of the first link member 11 and the second link member 11, as described above, while the shelf 40 is lowered from the rising end point to a predetermined position. Since the distance D between the twelve 12 increases, the buffering function of the absorber 20 does not work, and therefore, the shelf 40 can be pulled out to the front side and lowered without requiring a large force.
[0027]
Further, while the shelf 40 descends from the predetermined position to the descending end point, the distance D between the first link member 11 and the second link member 12 decreases as the shelf 40 descends. When 40 reaches the end point of descent, the interval D becomes minimum. That is, as shown in FIG. 4, when the shelf 40 descends to the predetermined position, the connecting portion of the first link member 11 at the point B with the shelf 40 is moved down to the end point of descending. While moving to the point C, the interval D between the first and second link members 11 and 12 continues to decrease during this time, and the connecting portion of the first link member 11 with the shelf 40 reaches the point C. Sometimes, the interval D becomes minimum.
[0028]
While the shelf 40 descends from the predetermined position to the descending end point, the distance D between the first and second link members 11 and 12 is reduced as described above. 22 is pressed by the second link member 12 and retreats. Thereby, the buffering action of the absorber 20 is exerted, and the rotation of the first and second link members 11, 12 becomes slow. Therefore, the shelf 40 stops at the end point of descent without generating an impact and a sound.
[0029]
According to this elevating device, since the rod 22 of the absorber 20 is always in contact with the contacted portion 12a of the second link member 12, the rod 22 and the contacted portion 12a No collision noise is generated, and the shelf 40 moves down very quietly.
[0030]
Also, as shown in FIG. 3, when the shelf 40 reaches the lowering end point, a load is applied to the rod 22 of the absorber 20, so that the shelf 40 in a state where no food or the like is loaded is moved. Even when the rack 40 is lowered, the rack 40 can be stopped at the end point without lowering without being raised.
[0031]
On the other hand, when the shelf 40 moves up, the first and second link members 11 and 12 operate in a direction opposite to that when the shelf 40 moves down. In other words, the first and second link members 11 and 12 increase the distance D between the two as the shelf 40 rises while the shelf 40 rises from the lower end point to the predetermined position. When 40 reaches a predetermined position, the interval D becomes maximum.
[0032]
While the shelf 40 rises from the lower end point to the predetermined position, as described above, the interval D between the first and second link members 11 and 12 increases, so that the buffer function of the absorber 20 works. Therefore, the shelf 40 can be raised without requiring a large force.
[0033]
In addition, while the shelf 40 rises from the predetermined position to the rising end point, the distance D between the first and second link members 11 and 12 decreases as the shelf 40 rises.
[0034]
While the shelf 40 is rising from the predetermined position to the rising end point, the distance D between the first and second link members 11 and 12 is reduced as described above. 22 is pressed by the second link member 12 and retreats. Thereby, the buffering action of the absorber 20 is exerted, and the rotation of the first and second link members 11, 12 becomes slow. Therefore, according to this elevating device, even when the shelf 40 reaches the ascending end point, it can be stopped without generating an impact and a sound.
[0035]
【The invention's effect】
As described above, according to the present invention, there is provided an elevating device for elevating and lowering a shelf provided in a refrigerator while maintaining a horizontal state by a link mechanism. To prevent the impact and sound from being generated at the end point of the lowering of the shelf, and the shelf in which no food or the like is loaded is provided. Even when the rack is lowered, the shelf can be stopped at the lower end point.
[Brief description of the drawings]
FIG. 1 is a diagram showing a main part of an elevating device according to an embodiment of the present invention.
FIG. 2 is a sectional view showing an internal structure of an absorber adopted in the embodiment.
FIG. 3 is a diagram for explaining an operation of the elevating device according to the embodiment.
FIG. 4 is a diagram for explaining an operation of the elevating device according to the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Link mechanism 11 1st link member 12 2nd link member 20 Absorber 21 Casing 22 Rod 22a Rod 22b Coating material 23 Piston 24 Rubber bellow 25 Through hole 26 Valve member 27 Spring receiver 28 Spring 30a-30d Connecting shaft 40 Shelf

Claims (4)

An elevating device for elevating and lowering a shelf provided in a refrigerator while maintaining a horizontal state by a link mechanism, wherein the absorber restricts rotation of the link mechanism so that the shelf is stopped at least at a descent end point of the shelf. A lifting device comprising: The link mechanism has a first link member that supports the absorber, and a contact portion that is substantially perpendicular to the axis of the rod of the absorber and that the tip of the rod can contact in a rotation process. The lifting device according to claim 1, further comprising: two link members. The elevating device according to claim 2, wherein the tip of the rod is always in contact with the contacted portion of the second link member. When the shelf is located at the end point of ascending, the first and the second and the third are arranged such that the center of rotation is located forward of the connecting portion with the shelf, and has an interval capable of pressing the rod of the absorber. The lifting device according to claim 2, wherein a second link member is provided.

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