JP4111038B2 - refrigerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a refrigerator provided with a shelf device provided in a refrigerator so that the height of the shelf can be adjusted to a free position.
[0002]
[Prior art]
In general, in a refrigerator, there is a demand for a shelf device that can be adjusted up and down according to the size of food and containers to be put in the refrigerator. Therefore, conventionally, as such a shelf device in the refrigerator, there is one as shown in, for example, Japanese Patent No. 2752300.
44 is a longitudinal sectional view of a refrigerator having a conventional shelf device, FIG. 45 is a side view of the conventional shelf device, and FIG. 46 is a detailed view of the conventional shelf device.
In the figure, 1 is in a refrigerator, 2 is a rack, 3 is a shelf support frame, 4 is a pinion gear, 5 is a shelf body, and has a shelf plate 5a (chain line portion) and a shelf frame 5b. The shelf board 5a is slidable in the A direction of FIG. 44 from the shelf frame 5b. 6 is a gear shaft, 7 is a spring, and 8 is an adjusting means.
On one side of the refrigerator, a shelf support frame 3 having a rack 2 having a vertical frame, a shelf body 5 having a pinion gear 4 meshing with the rack 2 via a support member, A gear shaft 6 that is provided and supports the pinion gear 4 via a Z-shaped steel, and is wound around the outer peripheral surface of the gear shaft 6 and one end thereof is attached to the pinion gear 4 or the shelf body 5. A fixed spring 7 and adjusting means 8 adapted to compress the spring 7 are provided.
[0003]
With the pinion gear 4 of the shelf body 5 meshed with the rack 2 of the shelf support frame 3, the spring 7 is pulled in the diameter-reducing direction by the weight of the shelf body 5 and is firmly wound around the gear shaft 6. Is locked to fix the shelf body 5 at a predetermined position. When the position of the shelf body 5 is changed, the winding fixing force between the spring 7 and the gear shaft 6 is released by pressing the adjusting means 8 (chain line portion 8), and the shelf body 5 is moved upward ( It can be freely adjusted in the B direction in FIG. 46 and in the downward direction (C direction in FIG. 46).
Furthermore, when the shelf body 5 is adjusted only in the upward direction (the B direction in FIG. 46), the shelf body 5 may be lifted up as it is.
[0004]
[Problems to be solved by the invention]
In the refrigerator equipped with the conventional shelf device as described above, when the vertical position of the shelf body 5 is adjusted, the adjusting means 8 is in two places on the left and right sides, so it must be operated simultaneously with both hands, and the horizontal state is maintained. Since either one of the adjusting means 8 is easy to move in advance, there is troublesome operation while taking care.
Further, since the adjusting means 8 supports the shelf body 5 only at one place on the left and right sides, the back and forth of the shelf body 5 is liable to occur due to assembly variations, and the stability of the shelf body 5 is not good.
When the adjusting means 8 is operated, there is a fear that it may drop at a stretch due to the weight of the shelf body 5 at the moment when the lock is released, and there is anxiety as a safety aspect.
Furthermore, considering the amount of load when food is placed on the shelf body 5, it is difficult to move the shelf body 5 up and down while operating the adjusting means 8.
[0005]
In addition, when a shelf device having a complicated structure as in the prior art is provided, the parts are loose or lifted up, resulting in poor operability.
In addition, there is a risk that parts may fall off due to dimensional variations.
In addition, the resistance to the moving operation is increased and the operability is deteriorated.
Moreover, it was not a good design.
In addition, the operability was poor.
In addition, since the cool air is blocked, if the air volume is not increased, the cool air may not flow to the near side, and the cooling efficiency is poor.
[0006]
Further, when a shelf device having a complicated structure as in the prior art is provided, a braking phenomenon occurs and smooth movement cannot be obtained.
Further, belt skipping (positional shift between gear teeth and belt teeth) was likely to occur.
In addition, depending on how to load food or the like, the flow of cold air may be hindered, and it may not be possible to cool uniformly.
Further, the lever knob shape is a simple square block shape, and it is not easy to put force with a pinch feeling.
The present invention has been made to solve the above-described problems, so that the position of the shelf can be adjusted with a small amount of force with a small force even when the food is placed, regardless of the load amount of the food. The refrigerator provided with the shelf apparatus made into the above is provided.
[0007]
Moreover, it is possible to obtain a refrigerator that is highly reliable and excellent in design, and further improves the cooling efficiency by improving the flow of cool air in the refrigerator to provide an energy-saving refrigerator.
[0008]
In addition, the braking phenomenon due to the load of food placed on the shelf is minimal and the lever operating force is improved, so that abnormalities can be prevented in the shelf ascending process when the lever is the most loaded, increasing the strength of the tray, The entire room of the refrigerator is cooled uniformly, and the refrigerator is provided with a lever that can be easily picked up.
[0009]
[Means for Solving the Problems]
  The present inventionColdThe warehouse is provided in a frame for placing a shelf or the like disposed in the refrigerator, and the frame.,toothA timing belt provided with a mold, a lever provided on the timing belt, a shaft having a movable shaft gear that rotates in conjunction with the timing belt rotated by movement of the lever, and the movable shaft gear. An auxiliary gear that rotates with the timing belt sandwiched between the shaft and the shaft, and power is transmitted by the rotation of the shaft.BeA shelf apparatus having a moving plate and a shelf receiving portion fixed to the inner wall of the refrigerator and moving the frame in the vertical direction or the horizontal direction by mounting and fixing the moving plate.By sliding the lever, the timing belt, the gear, the shaft, and the moving plate are interlocked, and the frame provided on the shaft is moved by rotating the shaft.Is.
[0010]
  The present inventionofIn the refrigerator, the knob shape of the lever is matched with the abdomen of the finger so as to be recessed inside.
[0011]
  The present inventionColdThe warehouse has a frame for placing a shelf or the like disposed in the refrigerator, a timing belt provided in the frame, a plurality of shafts rotating in conjunction with the timing belt, and the plurality of shafts. Power is transmitted by rotating the plurality of shafts.BeMoving board andThePrepared,Fixing the moving plate in the refrigerator;By directly rotating any one of the plurality of axes with a motor, the frame can be moved in the vertical direction or the horizontal direction.
[0012]
  The present inventionColdThe warehouse includes a shelf device in which the frame is provided with a cold air inlet for taking in cold air from a cold air supply duct provided between an inner plate and an outer plate of the refrigerator, and a cold air outlet for blowing the cold air into the refrigerator. Is.
[0013]
  The present inventionColdThe warehouse is provided with a resin tray on the frame and a metal member placed on the upper surface of the tray.
[0014]
  The present inventionColdThe warehouse is a metal tray made on the frame.
[0015]
  The present inventionColdThe warehouse is configured such that a part of cool air introduced into the frame is applied to a metal member or a metal tray provided on the frame.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
An embodiment of the present invention will be described below with reference to the drawings.
FIG. 1 is a perspective view of the shelf device, FIG. 2 is a cross-sectional view of the main part of the shelf device, and FIG. 3 is a refrigerator mounting view of the shelf device. In the figure, 1 is a shelf mounting frame, 1c and 1d are bearing portions provided on a leg portion 1i, 1i is a leg portion of the shelf mounting frame 1, and 1j is cold air provided on the shelf mounting frame 1. Intake port, 2 is a timing belt, 2a is a rack-shaped portion of the timing belt 2, 3 is a lever, 4 is a screw-shaped shaft, 4a is a small shaft portion of the screw-shaped shaft 4, 6 is a gear, 6a is a small shaft of the gear 6 , 7 is a side wall of the refrigerator 50 (side portion of the inner plate 25), 10 is a hollow portion of the shelf-mounting frame 1, 16 is a moving plate, and 20 is a shelf that is detachably placed on the frame 1. , 25 is a refrigerator inner plate, 26 is a refrigerator outer plate, 35 is a flat seat, 36 is a shelf receiving portion, 37 is a screw, 38 and 39 are blowout holes provided in the shelf mounting frame 1, and 45 is on the back of the refrigerator The provided vent hole 46 is a cold air supply duct.
[0017]
Reference numeral 1 denotes a shelf-mounting frame having a hollow shape and forming a frame body. The frame 1 has a hollow portion 10, and a timing belt 2 is mounted on the outer edge using the hollow portion 10. The lever 3 is connected and fixed to the timing belt 2 with a screw 43 and is arranged so as to move along one side of the shelf mounting frame 1, and the timing belt 2 rotates by sliding the lever 3. . A gear 6 that meshes and rotates with the rack-shaped portion 2a of the timing belt 2 is disposed on the rotation line of the timing belt 2 and at each corner of the shelf-mounting frame 1. The screw shaft 4 is integrally formed through a flat seat 35 having a larger diameter. The flat seat 35 prevents the timing belt 2 from shifting, but may not be present.
[0018]
The screw shaft 4 is rotated by rotating the gear 6 by the timing belt 2. Reference numeral 16 denotes a moving plate having a threaded hole 16a and screwed into the screw shaft 4, and is a moving plate that is sent to the screw when the screw shaft 4 rotates and moves up and down. Legs 1 i are formed at each corner (four places) of the shelf-mounting frame 1, and the small shafts 6 a and 4 a protruding from the central axis of the gear 6 and the screw-shaped shaft 4 are bearings of the leg 1 i. It is supported by the parts 1c and 1d, and the screw-shaped shaft part is stored. Here, by forming the gear 6 and the shaft 4 integrally, the number of parts can be reduced. In addition, here, the description has been given in which the corners are provided at four corners. However, if two corners are provided so as to be opposed to the left and right, it may be stable. Further, in the case where the shelf mounting frame 1 has a round shape, for example, where there is no corner, it may be provided at a position facing left and right or front and rear.
[0019]
Next, the case where a shelf apparatus is installed in the refrigerator 50 is shown.
Reference numeral 36 denotes a shelf receiving portion fixed to a predetermined position on the side wall 7 of the refrigerator 50 with screws 37, and is arranged so that the moving plate 16 provided on the screw-shaped shaft 4 of the shelf faces each other. By placing the moving plate 16 on the shelf receiving portion 36, the moving plate 16 set on the shelf mounting frame 1 side is fixed by its own weight. It will move up and down.
That is, by sliding the lever 3, the timing belt 2, the gear 6, the screw shaft 4, and the moving plate 16 are interlocked. By fixing the moving plate 16 to the refrigerator inner wall 7, the shelf mounting frame 1 is moved up and down. Will move.
[0020]
As described above, the shelf 20 is detachably mounted on the shelf mounting frame 1. However, even if the shelf mounting frame 1 and the shelf 20 are fixed and integrated, the shelf 20 is mounted on the lower portion of the shelf 20. The shelf device having the structure of the frame 1 may be integrally formed from the beginning.
Further, in the present embodiment, the shelf device used in the refrigerator is shown, but in addition to the refrigerator, it can be applied to all other storage shelf devices such as a small showcase, a commercial showcase, and furniture. Is.
[0021]
In FIG. 3, a part of the cold air blown out from the cold air supply duct 46 on the rear surface of the refrigerator provided between the refrigerator inner plate 25 and the refrigerator outer plate 26 using the hollow portion 10 of the shelf mounting frame 1. Is taken into the cool air intake 1j of the shelf mounting frame 1 through the ventilation hole 45 on the rear surface of the refrigerator, and the blow hole 38 provided on the side surface of the shelf mounting frame 1 and the legs of the shelf mounting frame 1 Cold air is guided to the blow-out holes 39 provided on the front and side surfaces of 1i, and an air passage is formed in which the cold air is guided into the refrigerator. When the moving plate 16 is placed on the shelf receiving portion 36, the ventilation hole 45 and the cold air intake 1j are opposed to each other. Here, the cold air supply duct 46 is provided on the back surface, but when it is provided on the side surface, the cold air intake 1j may be provided on the side surface of the shelf mounting frame 1.
From the above, it is also blown out to the front surface in the refrigerator, and the temperature distribution in the refrigerator can be made uniform.
Further, by providing holes such as the blowout holes 38 and 39 at necessary positions of the shelf mounting frame 1, it is possible to supply cold air to a desired portion by a simple operation of providing holes in the frame 1.
[0022]
Also, the shelf can be moved up and down with food and other items placed just by sliding the lever laterally using the front of the shelf mounting frame, so the lever can be operated with only one hand. Since the full width of can be used, it is possible to rotate the screw-type shaft a lot so that the shelf can be moved up and down even with a small operating force.
In addition, the shelf mounting frame moves up and down as the moving plate mounted on the screw shaft moves, so if a load is applied to the shelf, the shelf does not move and no unlocking mechanism is required, making it easy to operate and safe In addition, a shelf device with a small number of parts can be provided. However, a lock mechanism may be provided in the lever portion to improve safety at high loads.
Moreover, the interior volume can be changed by dividing the partition wall in a variable manner.
[0023]
Further, as shown in FIG. 4, the gear shaft 6 and the screw-shaped shaft 4 are arranged so as to extend along the groove portions 7a provided on the side wall 7 of the refrigerator by extending from the corner portions of the shelf mounting frame 1 and rotating. By disposing the timing belt 2 so as to engage the gear shaft 6 through the flexible roller 44, the food storage space in the box can be used effectively.
[0024]
The example which used the structure of the shelf apparatus shown in the above embodiment for the ceiling wall of the partitioned exclusive space is shown.
As shown in FIG. 5, for example, a ceiling wall 42 holding an open / close door of a dedicated space such as a chilled chamber having a dedicated temperature zone or a new freezing temperature zone chamber 41 in a refrigerated room or the like is provided with a timing belt (illustrated). (Omitted), screw-shaped shaft (not shown) and moving plate (not shown) are moved with a lever (not shown), etc., and the capacity of the dedicated space (chilled room or new freezing temperature zone 41) can be varied. It can be adjusted to the user's preferred size. In addition, in the figure, it can maintain as an exclusive temperature zone room by ensuring the lapping allowance of an opening-and-closing door and a case more than a variable range.
In addition, it is possible to adjust the capacity by moving the vertical partition wall in the left-right direction as well as the horizontal partition wall that vertically partitions the refrigerator, such as the ceiling partition wall 42. It is the most effective means for freezing temperature room. Furthermore, it is possible to adjust the capacity according to the preference of the consumer user, but it is possible to manufacture products with different dedicated spaces with one model from the factory side, leading to improved productivity.
[0025]
Moreover, the example which used the structure of the shelf apparatus shown in the above embodiment for the door (door) pocket provided in the refrigerator door is shown.
As shown in FIG. 6, the door pocket 40 is also moved by using the timing belt 2, the screw shaft 4, and the moving plate 5, thereby making it possible to change the distance between the upper and lower sides of the door pocket. You can adjust the height of the corresponding user preference.
[0026]
From the above, it can be applied not only to the height adjustment of shelves but also to the movement of walls and door pockets of a partitioned storage space, etc., depending on the family structure and dietary habits, various dishes, pots, bottles, PET bottles etc. Products that can be flexibly adapted to the size of various containers. In addition to the refrigerator shelf device, the shelf device of the present invention can be applied to all other storage shelf devices such as a small showcase, a commercial showcase, and furniture.
[0027]
Embodiment 2. FIG.
An embodiment of the present invention will be described below with reference to the drawings.
7 is an assembly perspective view of the shelf device of the present invention, FIG. 8 is a detailed plan view of the moving leg and the holding member, FIG. 9 is a detailed longitudinal sectional view of the moving leg and the holding member, and FIG. 10 is a perspective view of the moving leg. 11 is a perspective view of the holding member, and FIG. 12 is a front perspective view of the refrigerator. In the figure, 2 is a timing belt, 3 is a lever, 4 is a screw-type shaft in which a gear 6 is integrally formed on the same shaft, 7 is a refrigerator inner wall surface, 15 is a timing belt mounting socket, and 16 is a moving means. A moving leg, 17 is an attachment of fixing means, 18 is a holding member of holding means, 19 is a frame reinforcing plate, 20 is a detachable tray, and 22 is a slider portion having a spring 21.
[0028]
The shelf-mounting frame 1 that forms a frame with a hollow shape is composed of a combination of an upper frame 1a and a lower frame 1b. A hollow portion 10 is formed inside, and the hollow portion 10 is used to form an outer edge. A timing belt 2 is attached. The lever 3 is arranged so as to move along one side of the frame 1, and extends from the base of the lever 3 to the inside of the shelf mounting frame 1 from a slit provided on the lower surface of the front portion of the shelf mounting frame 1. The insertion side 3a is inserted and fitted into the timing belt mounting socket 15 to be connected and fixed to the timing belt 2. When the lever 3 is slid, the timing belt 2 is rotated. A gear 6 that meshes and rotates in a rack shape (not shown) of the timing belt 2 is disposed on the rotation line of the timing belt 2 and at each corner of the frame 1, and a screw-shaped shaft 4 is disposed on the same axis as the gear 6. It is formed as a unit. At each corner (four locations) of the frame 1, there are provided a gear-side small shaft 6a protruding from the central axis of the gear 6 and the screw-shaped shaft 4 and a screw-shaped shaft-side small shaft 4a provided on the frame 1 side. 1c and 1d are pivotally supported in the vertical direction, and the screw shaft 4 is stored. The screw shaft 4 rotates in conjunction with the timing belt 2 when the gear 6 is rotated. In addition, here, the screw-shaped shaft 4 is provided at the four corners. However, if the two screw shafts are provided so as to be opposed to the left and right, it is stable. The movable leg 16 has a threaded hole 16a in the meshing portion on the female screw side corresponding to the screw-shaped shaft 4, and the screw-shaped shaft 4 is screwed into the threaded hole 16a, and as the screw-shaped shaft rotates. Then, it is sent to the screw and moved up and down.
[0029]
Reference numeral 17 denotes an attachment having a sandwiching portion 17a provided at a predetermined position on the refrigerator inner wall surface 7. The entrance portion of the sandwiching portion 17a is provided with a plate portion 17b as a contact portion, and the sandwiching portion side is brought into the refrigerator inner wall surface. It is embedded and fixed so that the dish side is flush with the wall surface. In the figure, a U-groove is used as the clamping portion, but a clamp or the like may be used as long as it has the same function. As shown in FIG. 11, the holding member 18 composed of a mounting surface 18d on which the movable leg 16 is mounted from above has a flat plate-shaped insertion piece 18a extending horizontally from the mounting surface. Is inserted into the U-groove 17a of the attachment and fixed to the inner wall surface of the refrigerator via the attachment 17. The insertion piece 18a has an engaging portion 18b that is opened substantially perpendicularly from the mounting surface. When the holding member 18 is inserted into the attachment 17, the engaging portion 18b is installed parallel to the inner wall surface of the refrigerator. .
Further, as shown in FIG. 10, the moving leg 16 described above has a flange portion 16e at the lower end of a threaded hole 16a into which the screw shaft 4 is screwed, and one end of the flange portion is bent in the axial direction. A piece 16f is formed, and a locking portion 16b is provided at the tip thereof. When the movable leg 16 is placed on the holding member 18, the protruding piece 16f of the moving leg is inserted along the engaging portion 18b of the holding member, and the locking portion 16b at the tip of the protruding piece is engaged with the holding member. The projecting piece is hooked on the joining portion 18b, and the protruding piece is overlapped and held on the raised portion, and is also sandwiched and fixed with the attached dish 17b. As a result, the movable leg 16 is engaged with the holding member 18 to prevent the frame 1 from rattling or lifting. Here, the locking portion 16f is formed in a claw shape or a hook shape. Furthermore, even if a load from the frame is applied to the moving leg and a downward moment is applied, the protruding piece of the moving leg can be pressed by the attached dish portion to suppress bending. In addition, since the attach 17 is embedded in the inner wall of the refrigerator and minimizes the obstruction to the interior surface and the space, the interior space can be used effectively.
[0030]
As described above, the movable leg 16 is set on the frame 1 side via the screw-shaped shaft 4 and is mounted and fixed on the holding member 18. Will move. That is, by sliding the lever 3, the timing belt 2, the gear 6, the screw-shaped shaft 4 and the moving leg 16 are interlocked, and the moving leg 16 is fixed to the attach 17 attached to the inner wall surface 7 of the refrigerator for shelf placement. The frame 1 moves up and down. Further, for example, one of the contact surfaces of the mounting surface 18d of the holding member 18 and the flange portion 16e of the movable leg 16 has a hole 18c, and a convex portion 16c on the other side. When the movable leg 16 is placed on the holding member 18, the hole 18 c and the convex portion 16 c are engaged to prevent horizontal displacement. Thus, when the lever 3 is slid, the frame 1 on which the moving leg 16 into which the screw shaft 4 is screwed is not moved in the sliding direction and does not contact the inner wall of the refrigerator, and the lever operation and shelf movement are easy to use. Become.
[0031]
Next, a state in which the shelf device is installed in the refrigerator will be described with reference to FIG. A holding member is installed at a predetermined position on the inner wall surface 7 of the refrigerator, and the shelf device is attached to the inside of the refrigerator by placing the moving legs attached to the corners of the shelf mounting frame 1 on the holding member. In order to move the shelf up and down, the lever 3 provided on the front surface of the frame 1 must be slid. Since the user manually operates the lever 3, it is necessary to provide the lever 3 on the front surface of the frame 1 for convenience. A slit portion is provided on the lower surface of the front portion of the frame 1 and an insertion side extending from the base of the lever is inserted into the slit portion and joined to the timing belt. Thereby, only the shelf mounting frame 1 and the lever 3 can be seen from the front of the refrigerator, and a refrigerator with good design and ease of use can be obtained.
[0032]
13 and 14 show an example of the refrigerator when the shelf device is installed in the refrigerator. In the figure, rooms F are arranged in the order of F room (freezer room), R room (refrigerated room), and V room (vegetable room), and a frame 1 having a shelf device and a lever 3 is provided in the R room. . Note that a two-door refrigerator of the F room and the R room may be used. FIG. 14 shows a frame 1 in which the rooms are arranged in the order of the R room, the V room, and the F room from the top, or in the order of the R room, the F room, and the V room, and the shelf room and the lever 3 are provided in the R room. Is provided. Reference numeral 1 denotes a frame which is a shelf that can be moved up and down, 51 a fixed shelf, 3 a lever provided on the shelf 1, and 7 a refrigerator inner wall surface.
FIG. 15 shows the stroke of the lever 3, and the lever stroke A is more than half of the interior width dimension B. Then, the lever 3 moves without applying a great force. Further, if the left and right ends are not moved, the lever 3 can be grasped by hand and is easy to operate. Further, if the vertical movement dimension C is 1/5 or less of the lever stroke A, the operation force is easy. The motor drive is not limited to this.
[0033]
FIG. 16 is a view showing a shelf mounted in the refrigerator, and FIGS. 17, 18 and 19 are the portions where the screw-shaped shaft 4 part (mechanical part) of the frame 1 is embedded between the inner box and the outer box of the refrigerator. FIG. 20 and FIG. 20 are attachment views of the inner box side support part of the mechanical part.
1 is a vertically movable shelf portion, 51 is a fixed shelf, 3 is a lever provided on the shelf portion 1, 7 is a refrigerator inner wall surface, 7a is a recessed groove provided on the inner wall surface 7, and 36 is a vertically movable shelf portion 1. A shelf receiving portion 51 a is a shelf receiving portion of the fixed shelf 51.
In FIG. 16, the inner wall surface 7 has no groove. Note that the frame 1 shown by the one-dot chain line is movable up and down. In FIG. 17, the inner wall surface 7 has a concave groove 7a. When there is the concave groove 7a, the portion of the frame 1 where the screw-shaped shaft 4 part (mechanical part) is provided is embedded in the concave groove 7a, so that the appearance in the warehouse is improved. In FIG. 18, the inner wall surface 7 has a groove 7 a for each shelf 1. In FIG. 19, not every shelf 1, but the concave groove 7a is vertically penetrated. As a result, the vertical movement width can be increased. In FIG. 20, the inner box is not provided with irregularities, and a shelf receiving portion 36 for the upper and lower shelves 1 is provided.
[0034]
21 and 22 are perspective views of the vicinity of the screw-shaped shaft 4 part (mechanical part). FIG. 21 shows a case where there is no unevenness on the inner box side, and FIG. 22 shows a case where the screw shaft portion is arranged in the inner box groove. FIG. 23 is a perspective view of the screw shaft portion.
1 is a vertically moving shelf, 2 is a timing belt, 3 is a lever provided on the timing belt 2, 4 is a screw shaft, 6 is a gear, 16 moving plate, 16b is a locking portion, 18 is a holding member, 18c is a hole Part. The holding member 18 is provided in the refrigerator inner box, and is provided, for example, on the side surface. The locking portion 16b provided on the moving plate 16 is inserted and fixed in the hole portion 18c provided on the holding member 18. Here, the locking portion 16b has a triangular shape, but any shape may be used as long as it is inserted into the hole 18c and fixed.
[0035]
24 to 29 are perspective views of the vicinity of the screw-shaped shaft 4 part (mechanical part).
2 is a timing belt, 3 is a lever provided on the timing belt 2, 4 is a screw shaft, 6 is a gear, 6b is an auxiliary gear, 7 is an inner wall surface, 16 moving plate, 52 is a rib, 53 is a switch, 54 is A motor, 55 is a flexible cord, 56 is an opening, 57 is a rack gear, and 58 is a worm shaft.
FIG. 24A is a perspective view of the vicinity of the screw-shaped shaft 4 part (mechanical part), and FIG. 24B is an enlarged view of the arrow part of FIG. By adopting this configuration, it is possible to prevent belt tooth skipping due to uneven load. Further, the shift of the belt 2 in the direction away from the gear 6 can be restricted by the rib 52, and the shift between the gear 6 and the belt 2 can be prevented.
FIG. 25A is a perspective view of the vicinity of the screw-shaped shaft 4 part (mechanical part), and FIG. 25B is an enlarged view of the arrow part of FIG. By adopting this configuration, it is possible to prevent belt tooth skipping due to uneven load. Further, the belt 2 is provided with tooth shapes on both the front and back surfaces, and the belt 2 is sandwiched between the movable shaft gear 6 and the auxiliary gear 6b at the movable shaft gear 6 portion. And the displacement between the gear 6 and the belt 2 can be prevented.
[0036]
FIG. 26 is a perspective view of a portion where the screw-shaped shaft 4 portion (mechanical portion) is provided on the inner wall 7. Here, the operation lever (the other lever 3 in FIG. 25) is replaced with a motor 54. By directly rotating any one of the movable shafts by the motor 54, the four movable shafts can be interlocked to move the shelf 1 up and down. At this time, when the up / down switch 53 is pressed, the shelf is stopped when the shelf is lifted up, and when the switch 53 is pressed, the shelf is stopped when the shelf is lowered. By pushing this switch 53, the motor 54 moves. A flexible cord 55 is connected to the motor 54.
FIG. 27 shows an example in which the operation lever is replaced with a motor 54, and a booster mechanism using gears is provided.
[0037]
FIG. 28 shows an example in which the movable part (screw part 4 parts, etc.) is embedded in the refrigerator box. Although the movable unit is embedded in the box, since the opening 56 is provided on the inner wall 7, the moving plate 16 can be taken out from the opening 56 to the inside of the box, and the shelf 1 provided on the moving plate 16. (Not shown) can move up and down. As described above, since the screw shaft 4 is embedded, the design is neat and looks good.
FIG. 29 shows an example in which the movable part (four screw shafts, etc.) is embedded in the refrigerator box, and the lever 3 is the front and side surfaces of the refrigerator box. The worm shaft 58 is operated by the lever 3 with the rack gear 57. By transmitting the rotation of the worm shaft 58 to the movable shaft (screw shaft 4), the shelf 1 (not shown) is moved up and down in conjunction with the vertical movement of the lever 3.
[0038]
30 is a detailed sectional plan view of the lever, FIG. 31 is a detailed perspective view of the lever and the timing belt, and FIG. 32 is a sectional view of the detachable tray. In the figure, the same reference numerals as those in FIG. 7 and FIG. The timing belt 2 is mounted so that it rises when the lever 3 is slid to the right by operating the lever 3. Therefore, the screw shape of the screw shaft 4 is a right screw and the timing belt is attached to the timing belt mounting socket body 15 side. The timing belt 2 is attached to the slider belt 22 having the spring 21 in the timing belt mounting socket 15 on the left side, and a constant tension is applied to the timing belt 2. (When the lever is slid to the left when it is lifted, the reverse is the reverse specification.) This prevents the timing belt from loosening and eliminates backlash, and repels the spring to the lever operating force to raise the shelf. Since power can be used, operation force can be reduced.
[0039]
As shown in FIG. 30, the outer wall of the threaded hole 16a of the movable leg 16 is provided with a convex portion 16c at the tip portion facing the frame side on the opposite side to the projecting piece portion 16f. Since the convex portion 16c is disposed inside the groove 1h formed by the two ribs 1g provided on the wall surface for housing the shaft to prevent the movable leg 16 from rotating, a timing belt or a movable leg is incorporated. The movable leg 16 can be held so as not to rotate until the frame is set in the refrigerator main body.
Further, the frame reinforcing plate 19 is arranged so as to wrap along the track of the lever 3 with respect to the depth direction in which the lever 3 moving along the frame is arranged inside the front side of the shelf mounting frame 1. ing. As a result, even when the weight of food on the shelf increases, the frame can be bent to a minimum, and the lever can be operated in a linear motion to maintain good operability.
32 shown in FIG. 32 is a tray that is detachably mounted on the frame 1, and a U-shaped rib 20 a that opens forward is provided at the lower front side of the tray 20. The tray 20 is sandwiched between the flanges 1e, and the rear portion of the tray 20 is configured in an L shape so as to cover the rear portion of the shelf-mounting frame 1 and wrapped. The claw 20b provided at the side end is engaged. Since the front and rear portions of the shelf are engaged with the frame, the shelf tray does not fall off from the frame or rattle, and the overall strength of the shelf can be improved by integrating the engagement.
[0040]
FIG. 33 is a combination diagram of the screw shaft and the moving leg. In the figure, 4 is a screw-type shaft in which the gear 6 is integrally formed on the same shaft, and 16 is a moving leg into which the screw-type shaft is screwed. The weight load of food placed on one shelf in a general household refrigerator is about 5 kg on average and 10 kg at the maximum. On the other hand, if the lever operating force is about 4 kg, it is assumed that a woman can operate it. Taking these into consideration, the screw pitch of the screw shaft 4 (the distance traveled when the screw part makes one rotation) is 9 mm or less, calculated from the lever stroke when the vertical movement distance of the shelf is set to about 40 mm, and the screw pitch The angle (screw helix angle) may be set to 15 ° or less. As a result, a manual lever operating force for setting the vertical position of the shelf is reduced and suitable, and the tension applied to the timing belt can be relaxed, leading to improved reliability.
[0041]
FIG. 34 is a cross-sectional plan view showing the air path configuration in the refrigerator. In the figure, the same reference numerals as those in FIG. 7 denote the corresponding parts, 12 and 13 are blowout holes, 23 is a cold air supply side duct provided between the refrigerator inner plate 25 and the refrigerator outer plate 26, and 24 is a relay duct. is there. A part of the cool air blown out from the back of the refrigerator into the cabinet is passed from the back to the cool air supply side duct 23, and the cool air is introduced into the hollow portion 10 of the frame 1 through the relay duct 24 provided at the outlet. The cold air blown out from the cold air supply side duct 23 blows out perpendicularly to the inner wall surface of the refrigerator, but is changed into a flow along the inner wall by the relay duct 24 and is discharged to the hollow portion 10 as the cold air directed forward of the refrigerator. . Thereby, it becomes a structure which avoids the obstruction | occlusion which becomes wind path resistances, such as a screw-shaped axis | shaft provided in the flame | frame, The cold air which was guide | induced to the hollow part 10 and discharge | released uses this hollow part 10, and the side of the frame for shelf mounting, Cold air is blown out from the front blow holes 12 and 13 into the interior. As described above, it is possible to flow cool air to the front of the shelf mounting frame even with a small amount of airflow, without being disturbed by the screw shaft necessary to raise and lower the shelf and causing air path resistance. Efficiency can be improved and energy can be saved.
[0042]
In Embodiment 2 described above, the frame reinforcing plate 19 is arranged in accordance with the trajectory of the lever 3 with respect to the depth direction in which the lever 3 is arranged on the front side of the shelf mounting frame 1. It is possible to use a product obtained by extruding the front portion of the shelf-mounting frame 1 with a metal (for example, aluminum) material, and arranging the lever 3 and the timing belt 2 on the inner surface of the extruded product, and the load weight of food. The operability of the lever can be maintained satisfactorily with little deformation of the shelves.
[0043]
Embodiment 3 FIG.
An embodiment of the present invention will be described below with reference to the drawings.
35 is an assembled perspective view of the shelf device of the present invention, FIGS. 36 and 37 are detailed sectional views of the inside of the screw-type shaft gear, FIG. 38 is a detailed perspective view of the lever and timing belt, and FIG. 40 is a cross-sectional view of the mounting method for the detachable tray, FIG. 41 is a cross-sectional view of the cooling method for the resin tray, FIG. 42 is a cross-sectional view of the cooling method for the metal tray, and FIG. FIG.
In the figure, reference numeral 1 denotes a shelf-mounting frame which is a hollow frame and forms a hollow portion 10 by a combination of an upper frame 1a and a lower frame 1b. 2 is installed.
The lever 3 is arranged so as to move along one side of the frame 1, and the insertion side 3 a is inserted into the inside of the shelf mounting frame 1 from a slit provided on the lower surface of the shelf mounting frame 1, and a timing belt mounting socket 15. And the timing belt 2 is rotated by sliding the lever 3.
A gear 6 that meshes and rotates in a rack shape (not shown) of the timing belt 2 is disposed on the rotation line of the timing belt 2 and at each corner of the frame 1, and a screw-shaped shaft 4 is disposed on the same axis as the gear 6. It is formed as a unit.
The screw shaft 4 is rotated by rotating the gear 6 by the timing belt 2.
Reference numeral 5 denotes a moving leg having a threaded hole and screwed into the screw shaft 4 and is moved up and down by a screw when the screw shaft 4 is rotated.
At each corner of the frame 1, small shafts 27, 4 a projecting from the central axis of the gear 6 and the screw-shaped shaft 4 are supported by bearings 1 c, 1 d provided on the frame 1 side. Storing.
[0044]
Further, a plurality of freely rotatable spherical balls 28 are embedded in the gear 6 portion of the screw-shaped shaft 4, and are rotatably engaged via the balls 28 and inserted into the bearing 1c hole portion on the frame 1 side. The support shaft portion 27a and the holding portion 27b are formed to form a small shaft 27 in which the claw 27c and the stepped portion 29 are engaged. The lower surface of the bearing 1c on the frame 1 side and the seat portion 27d of the support shaft portion 27a are formed. The gear 6 rotates while contacting.
As described above, by providing the ball 28, the operation of the lever becomes smooth. Further, the upper surface of the ball protrudes from the upper surface of the gear so that the gear rotates while the ball contacts the lower surface of the bearing on the frame side. Even if the upper surface of the gear is pressed, the braking phenomenon is minimal with respect to the rotation of the gear, and the lever operating force is improved.
[0045]
As shown in FIGS. 38 and 39, the timing belt 2 is mounted when the lever 3 is slid in the right direction, so that the screw shaft 4 has a right thread and the timing belt mounting socket body. The belt mounting on the 15 side is on the left side, the belt mounting on the slider portion 22 having the spring 21 in the timing belt mounting socket 15 is on the right side, and a constant tension is applied to the timing belt 2 (the left direction by lever operation) If the slide is raised, the reverse specification).
As described above, the loosening of the timing belt can be absorbed by the repulsion of the spring in the ascending process where the load is most applied when the lever is operated, so that the tooth skipping of the belt (the misalignment between the gear and the teeth of the belt) can be prevented.
[0046]
FIG. 40 is a mounting cross-sectional view of the detachable tray. In the figure, 1a is an upper frame, 1b is a lower frame, 3 is a lever, 9 is a resin tray, and 31 is a metal tray. A metal tray 31 is placed on top of the resin tray 9.
As described above, the strength of the resin tray 9 can be increased by using, for example, the metal tray 31 that is a metal material in a state where the resin tray 9 is used.
Moreover, the strength of the tray is increased by making the tray provided on the shelf mounting frame made of metal.
[0047]
41 and 42 are plan sectional views showing the air path configuration.
FIG. 41 shows the structure of the air path provided with the resin tray 9, and the tray 9 is configured not to be directly exposed to cold air. On the other hand, FIG. 42 shows the structure of the air path provided with the metal tray 31, and the tray 3 is directly exposed to cold air.
In FIG. 42, a part of the cool air (arrow part in FIG. 7) blown out from the back into the cabinet using the hollow portion 10 of the shelf-mounting frame 1 (1a, 1b, 1g, etc.) from the back of the refrigerator to the side duct. The cool air introduced into the shelf mounting frame 1 is taken in through the protruding ducts 24 from the notches 1g provided at the rear sides of the shelf mounting frame 1 and introduced into the shelf mounting frame 1. A portion passes through the hole 30 provided on the shelf mounting frame 1 side, cool air is applied to the metal tray 31 provided above, and cold air is supplied from the side of the shelf and from the front blow holes 12 and 13 (see FIG. 1). To blow out.
From the above, the entire shelf surface is uniformly cooled and the temperature distribution is improved. In addition, since the space between the upper and lower sides of the shelf is also cooled uniformly, the distribution of the entire room is improved.
[0048]
FIG. 43 is a perspective view showing a lever knob shape, which is provided on the shelf mounting frame 1. Since the shape of the knob 3b of the lever 3 is matched with the abdomen of the finger so as to form a concave 3c on the inside, the lever 3 can be easily picked and force can be easily applied. In addition, if the lever is provided with an R, the protruding feeling is eliminated and the appearance is good.
In addition, by attaching a symbol or the like (in this case, lower or upper) indicating in which direction the shelf moves, there is no mistake in operation.
[0049]
In the above description, a plurality of spherical balls 28 are embedded in the gear portion 6 of the screw-shaped shaft 4 so that the upper support shaft portion 27a on the screw-shaped shaft side 4 is rotatable via the balls 28. In this example, the screw is inserted into the hole portion of the bearing 1c on the frame side and the gear rotates while the lower surface of the bearing on the frame side and the seat portion 27d of the support shaft portion 27a are in contact with each other. A plurality of freely rotatable spherical balls 28 are arranged in the gear portion 6 of the gear 6 so that the upper surface of the balls protrudes from the upper surface of the gear so that the gear 6 rotates while the lower surface of the bearing 1c on the frame side and the balls 28 are in contact with each other. Anyway.
[0050]
As described above, even if the belt 2 is broken, the shelf 1 can withstand the weight of the food by the frictional resistance of the screw shaft 4 and the gear 6 (screw).
Even if there is a partial load due to the rigidity of the frame 1, the lever 3 is not deformed.
Further, the height positions of the screw shafts 4 may be the same for all four. Further, when the assembly is started at the uppermost or lowermost position, the contacts can be set at the same position.
Moreover, the movable speed of the shelf 1 is good to make it the grade which the foodstuff on the shelf 1 does not move, for example.
Further, the position at which the lever 3 is disposed may be on the top, front, or front of the shelf 1, or on the side or front, as long as it is easy for the user to use in a place that does not interfere with food.
When the shelf 1 is at a high position, it is easier to see the lever 3 provided below the shelf 1, and when the shelf 1 is at a lower position, the lever 3 is easier to see when provided on the shelf 1. If there is a frame 1 (a tray or shelf on the top) at a high position, lowering it with the lever 3 makes it easy to see the food in the back, and it is easy to take out. If there is a shelf 1 at a low position, the lever 3 When it is raised upwards, the food in the back can be easily removed while the body is comfortable, and the barrier-free property is improved.
The lever 3 is preferably small, but is easy to pick.
Further, by making the trays 9, 20, and 31 detachable, the tray cleaning property is improved. Further, by providing a recess or a groove on the periphery of the tray, even if soup of food flows, it stops at the recess or the groove and does not flow to the frame 1. So you can keep it clean. If the tray covers the entire surface of the frame 1, it can be kept clean.
[0051]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
[0052]
  The present inventionColdThe warehouse is provided in a frame for placing a shelf or the like disposed in the refrigerator, and the frame.,toothA timing belt provided with a mold, a lever provided on the timing belt, a shaft having a movable shaft gear that rotates in conjunction with the timing belt rotated by movement of the lever, and the movable shaft gear. An auxiliary gear that rotates with the timing belt sandwiched between the shaft and the shaft, and power is transmitted by the rotation of the shaft.BeA shelf apparatus having a moving plate and a shelf receiving portion fixed to the inner wall of the refrigerator and moving the frame in the vertical direction or the horizontal direction by mounting and fixing the moving plate.By sliding the lever, the timing belt, the gear, the shaft, and the moving plate are interlocked, and the frame provided on the shaft is moved by rotating the shaft.Therefore, the displacement of the belt in the disengagement direction from the movable shaft gear can be regulated, and the shift between the gear and the belt can be prevented.In addition, the shelf can be moved up and down while the stored items such as food are placed, and the shelf can be moved even with a small operation force. Moreover, the food storage space in a store | warehouse | chamber can be used effectively.
SoIn addition, a frame that has a shelf or the like placed in the refrigerator and has an extended portion with a corner portion extended, a timing belt provided in the frame, and a lever provided in the timing belt, A shaft that is placed in the extension and rotates in conjunction with the timing belt that rotates by the movement of the lever; a moving plate that is provided on the shaft and to which power is transmitted by rotation of the shaft; And a groove portion provided on the inner wall of the refrigerator and arranged so that the frame can move in the vertical direction or the horizontal direction in a state where the extension portion is embedded in the refrigerator. Since the plate is fixed to the inner wall of the refrigerator and the shaft is rotated by sliding the lever, the frame is moved. It is to be able to, can move the shelf even with a small operation force. Moreover, the food storage space in a store | warehouse | chamber can be used effectively.
[0053]
  The present inventionColdIn the warehouse, the lever is shaped so that it is concave on the inside of the finger so that the lever is easy to pinch and force is applied.
[0054]
  The present inventionColdThe warehouse has a frame for placing a shelf or the like disposed in the refrigerator, a timing belt provided in the frame, a plurality of shafts rotating in conjunction with the timing belt, and the plurality of shafts. Power is transmitted by rotating the plurality of shafts.BeMoving board andThePrepared,Fixing the moving plate in the refrigerator;By directly rotating any one of the plurality of shafts with a motor, the frame can be moved in the vertical direction or the horizontal direction, so that the shelf can be moved up and down while containing food and other items. The shelf can be moved even with a small operating force. Moreover, the food storage space in a store | warehouse | chamber can be used effectively.
[0055]
  The present inventionColdThe warehouse includes a shelf device in which the frame is provided with a cold air inlet for taking in cold air from a cold air supply duct provided between an inner plate and an outer plate of the refrigerator, and a cold air outlet for blowing the cold air into the refrigerator. Therefore, the temperature distribution in the warehouse can be made uniform by a simple operation of providing holes in the frame.
[0056]
  The present inventionColdThe warehouse has a resin tray on the frame, and a metal member is placed on the top surface of the tray, so that the strength of the tray can be increased while using the resin tray. .
[0057]
  The present inventionColdThe warehouse is made of metal trays provided on the frame, increasing the strength of the tray.
[0058]
  The present inventionColdThe warehouse is designed to apply a portion of the cool air introduced into the frame to the metal member or metal tray provided on the frame, so that the entire shelf surface is uniformly cooled and the temperature distribution is good. Become. In addition, since the space between the upper and lower sides of the shelf is also cooled uniformly, the distribution of the entire room is improved.
[Brief description of the drawings]
FIG. 1 is a perspective view of a shelf device according to Embodiment 1 of the present invention.
FIG. 2 is a cross-sectional view of the shelf device according to Embodiment 1 of the present invention.
FIG. 3 is a mounting diagram of the shelf device according to the first embodiment of the present invention. .
FIG. 4 is a perspective view of a shelf device according to Embodiment 1 of the present invention.
FIG. 5 is a sectional view of a dedicated temperature zone chamber according to the first embodiment of the present invention.
FIG. 6 is a cross-sectional view of the door pocket portion according to the first embodiment of the present invention.
FIG. 7 is an assembled perspective view of a shelf device according to Embodiment 2 of the present invention.
FIG. 8 is a detailed plan view of a movable leg and a holding member according to Embodiment 2 of the present invention.
FIG. 9 is a detailed cross-sectional view of a movable leg and a holding member according to Embodiment 2 of the present invention.
FIG. 10 is a perspective view of a movable leg according to Embodiment 2 of the present invention.
FIG. 11 is a perspective view of a holding member according to Embodiment 2 of the present invention.
FIG. 12 is a front perspective view of a refrigerator according to a second embodiment of the present invention.
FIG. 13 is a front perspective view of a refrigerator according to a second embodiment of the present invention.
FIG. 14 is a front perspective view of a refrigerator according to a second embodiment of the present invention.
FIG. 15 is a front perspective view of a refrigerator according to a second embodiment of the present invention.
FIG. 16 is a perspective view of a refrigerator according to a second embodiment of the present invention.
FIG. 17 is a perspective view of a refrigerator according to a second embodiment of the present invention.
FIG. 18 is a perspective view of a refrigerator according to a second embodiment of the present invention.
FIG. 19 is a perspective view of a refrigerator according to the second embodiment of the present invention.
FIG. 20 is a perspective view of a refrigerator according to the second embodiment of the present invention.
FIG. 21 is a perspective view of the vicinity of a screw-type shaft according to a second embodiment of the present invention.
FIG. 22 is a perspective view of the vicinity of a screw-shaped shaft portion according to a second embodiment of the present invention.
FIG. 23 is a perspective view of the vicinity of a screw-shaped shaft portion according to the second embodiment of the present invention.
FIG. 24 is a perspective view of the vicinity of a screw-shaped shaft portion according to the second embodiment of the present invention.
FIG. 25 is a perspective view of the vicinity of a screw-shaped shaft portion according to the second embodiment of the present invention.
FIG. 26 is a perspective view of the vicinity of a screw-shaped shaft portion according to the second embodiment of the present invention.
FIG. 27 is a perspective view of the vicinity of a screw-type shaft according to a second embodiment of the present invention.
FIG. 28 is a perspective view of the vicinity of a screw-shaped shaft portion according to the second embodiment of the present invention.
FIG. 29 is a perspective view of the vicinity of a screw-type shaft according to a second embodiment of the present invention.
FIG. 30 is a detailed plan cross-sectional view of the lever according to the second embodiment of the present invention. .
FIG. 31 is a detailed perspective view of attachment of a lever and a timing belt according to the second embodiment of the present invention.
FIG. 32 is a mounting cross-sectional view of a detachable tray according to the second embodiment of the present invention.
FIG. 33 is a combination diagram of a screw shaft and a moving leg according to the second embodiment of the present invention.
FIG. 34 is a plan sectional view showing an air path configuration according to the second embodiment of the present invention.
FIG. 35 is an assembled perspective view of a shelf device according to Embodiment 3 of the present invention.
FIG. 36 is a detailed sectional view of the inside of a screw shaft gear according to a third embodiment of the present invention.
FIG. 37 is a detailed sectional view of the inside of a screw shaft gear according to a third embodiment of the present invention.
FIG. 38 is a detailed perspective view of attachment of a lever and a timing belt according to the third embodiment of the present invention.
FIG. 39 is a detailed plan cross-sectional view of the lever according to the third embodiment of the present invention.
FIG. 40 is a cross-sectional view of attaching and detaching a tray according to Embodiment 3 of the present invention.
FIG. 41 is a cross-sectional view of a method for cooling a resin tray according to a third embodiment of the present invention.
FIG. 42 is a cross-sectional view of a method for cooling a metal tray according to a third embodiment of the present invention.
FIG. 43 is a perspective view showing a lever knob shape according to Embodiment 3 of the present invention;
FIG. 44 is a side view of a refrigerator provided with a conventional shelf device.
FIG. 45 is a perspective view of a conventional shelf device.
FIG. 46 is a perspective view of a conventional shelf device.
[Explanation of symbols]
1 frame, 1a upper frame, 1b lower frame, 1c, 1d bearing, 1e flange portion, 1f rear lower surface, 1g rib, 1h groove, 2 timing belt, 3 lever, 3a insertion side, 3b claw, 4 screw shaft, 4a small shaft, 5 moving plate, 6 gear, 6a small shaft, 7 refrigerator inner wall surface, 8 shelf receiving part, 9 tray, 10 hollow part, 11 vent hole, 12, 13 outlet hole, 14 slit part, 15 timing belt attachment Socket, 16 Moving leg, 16a Threaded hole, 16b Locking part, 16c Convex part, 16d Convex part, 16e Flange part, 16f Protruding piece part, 17 Attach, 17a Holding part, 17b Dish part, 18 Holding member, 18a Insert Piece, 18b engaging portion, 18c hole portion, 18d mounting surface, 19 frame reinforcing plate, 20 tray, 20a U-shaped rib, 2 b claw portion, 21 a spring, 22 a slider unit, 23 cold air supply side duct 24 junction duct 25 refrigerator plate, 26 refrigerators skin.

Claims (10)

A frame for placing a shelf or the like disposed in the refrigerator, a timing belt provided in the frame and provided with a tooth shape , a lever provided in the timing belt, and rotating by movement of the lever A shaft having a movable shaft gear that rotates in conjunction with the timing belt, an auxiliary gear that rotates with the timing belt sandwiched between the movable shaft gear, and a shaft that is provided by rotation of the shaft. A shelf apparatus having a moving plate to which power is transmitted, and a shelf receiving portion that is fixed to the inner wall of the refrigerator and moves the frame in the vertical direction or the horizontal direction by mounting and fixing the moving plate. By sliding the lever, the timing belt, the gear, the shaft, and the moving plate are interlocked, and the shaft is rotated to be provided on the shaft. Refrigerator said frame is characterized in that so as to move the. A frame on which a shelf or the like disposed in the refrigerator is placed and has an extended portion with a corner portion extending; a timing belt provided in the frame; a lever provided in the timing belt; There is a shaft that is placed in the extension and rotates in conjunction with the timing belt that rotates by the movement of the lever, and a moving plate that is provided on the shaft and that transmits power by the rotation of the shaft. A shelf provided on the inner wall of the refrigerator, and a groove portion disposed so that the frame can move in the vertical direction or the horizontal direction in a state where the extension portion is embedded in the refrigerator, The refrigerator is fixed to the inner wall of the refrigerator, and the frame is moved by rotating the shaft by sliding the lever. The refrigerator according to claim 1 or 2 , wherein a knob shape of the lever is made to be concave on the inner side in accordance with an abdomen of a finger. A frame for placing a shelf or the like disposed in a refrigerator, a timing belt provided in the frame, a plurality of shafts rotating in conjunction with the timing belt, and provided on the plurality of shafts, comprising a moving plate which power is transmitted by rotating the plurality of axes, and fixing the moving plate in the refrigerator, by rotating directly the one of the plurality of axes by a motor, A refrigerator characterized in that the frame can be moved vertically or horizontally. The frame includes a shelf device provided with a cold air inlet for taking in cold air from a cold air supply duct provided between an inner plate and an outer plate of the refrigerator, and a cold air outlet for blowing out the cold air into the refrigerator. The refrigerator according to any one of claims 1 to 4 .   The refrigerator according to any one of claims 1 to 5, wherein a resin tray is provided on the frame, and a metal member is placed on an upper surface of the tray. The refrigerator according to any one of claims 1 to 6 , wherein a tray provided on the frame is made of metal. The refrigerator according to claim 6 or 7 , wherein a part of the cool air introduced into the frame is applied to a metal member or a metal tray provided on the frame. A frame disposed in a storage space of a refrigerator or the like, on which a shelf or the like is placed, a timing belt provided in the frame and provided with a tooth shape, a lever provided in the timing belt, and a lever A shaft having a movable shaft gear rotating in conjunction with the timing belt rotating by movement, an auxiliary gear rotating by sandwiching the timing belt between the movable shaft gear, and the shaft, A moving plate to which power is transmitted by rotation of a shaft; and a shelf holder that is fixed to the inner wall of the storage space and moves the frame in the vertical direction or the horizontal direction by mounting and fixing the moving plate. The timing belt, the gear, the shaft, and the moving plate are interlocked with each other by sliding the lever, and the shaft rotates to move forward. Shelving system wherein a frame provided on the shaft is characterized in that so as to move. A frame that is disposed in a storage space such as a refrigerator and that has shelves or the like and has an extended portion with an extended corner portion, and a timing belt provided in the frame A lever provided on the timing belt, a shaft that is placed in the extending portion and rotates in conjunction with the timing belt that is rotated by the movement of the lever, and is provided on the shaft. A shelf device having a moving plate to which power is transmitted by rotation, and the frame is moved in the up-down direction or the left-right direction with the extension portion embedded in the inner wall of the storage space provided on the inner wall of the storage space A groove part arranged as possible is provided, the moving plate is fixed to the inner wall of the storage space, and the frame is moved by rotating the shaft by sliding the lever. Shelf equipment.

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