JP4608840B2 - Door device and refrigerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a door device and a refrigerator provided with the door device.
[0002]
[Prior art]
2. Description of the Related Art Recently, refrigerators have been provided with a so-called double door type door device that opens and closes an opening of a storage room with two doors as the size of the refrigerator increases.
[0003]
A refrigerator having a conventional double door type door keeps the inside of the cabinet airtight by gaskets provided on the back surfaces of both doors. Therefore, a surface on which a gasket located on the non-pivot side of the door abuts must be formed. Therefore, the closing material which partitions there is attached to the opening part of the heat insulation box.
[0004]
As a conventional door device, for example, there is one disclosed in JP-A-1-208690.
[0005]
The conventional door device will be described below with reference to the drawings.
[0006]
FIG. 10 is a perspective view of a conventional refrigerator.
[0007]
FIG. 11 is a front view of a conventional refrigerator.
[0008]
FIG. 12 is a plan sectional view of an opening of a conventional refrigerator.
[0009]
FIG. 13 is a perspective view of a conventional refrigerator door.
[0010]
In the refrigerator 1 in FIGS. 10 to 13, an outer box 2 made of a steel plate and an inner box 3 formed of a synthetic resin, and a foam heat insulating material (not shown) filled between the boxes 2 and 3 are disposed forward. An opened heat insulating box 4 is formed. The opening 5 is constituted by two open doors 7 and 8 that are supported on the left and right edges of the opening 5 of the heat insulating box 4 so as to be rotatable by the upper and lower hinges 6.
[0011]
Guide members 9 are provided opposite to each other above and below the edge of the opening 5 of the heat insulating box 4 at the portion located on the non-pivot side of each of the doors 7 and 8. A guide groove 10 is formed in the guide member 9. The doors 7 and 8 include frame members 11 and 12, outer frames 15 and 16, door inner plates 21 and 22, and a heat insulating material 23. The outer frames 15 and 16 include frame members 11 and 12 and door outer plates 13 and 14 engaged therewith. The door inner plates 21 and 22 are formed by abutting the inner flanges 17 and 18 of the frame members 11 and 12. The heat insulating material 23 is filled with foam between the outer frames 15 and 16 and the door inner plates 21 and 22.
[0012]
A pair of left and right vertical walls 24 and 25 are formed on the door inner plates 21 and 22, respectively. A gasket 28 containing a magnet is attached to the grooves 26 and 27 at the ends of the frame members 11 and 12. The fins 29 are in close contact with the vertical walls 24 and 25 on the non-pivot side. When the doors 7 and 8 are closed, the gasket 28 is in close contact with the front edge of the outer box 2 of the opening 5 of the heat insulating box 4 to seal the interior 30.
[0013]
Furthermore, a partition body 31 having a substantially short cross section is attached to the outside of the inner vertical wall 24 from the gasket 28 positioned on the non-pivot side of the back surface of the door 7. The hinge plate 32 is fixed to the reinforcing plate 33 on the heat insulating material 23 side with screws 34 at two locations on the outer surface of the vertical wall 24. The partition 31 is rotatably supported on the rotation shaft 35 of the hinge plate 32. The partition body 31 has a length that extends vertically across the edge of the opening 5 and extends vertically with a dimension that is slightly shorter than the upper and lower guide members 9, the guide grooves 10 of the guide members 9, and the distance between the guide grooves 10. The front surface is a flat surface and a steel plate 36 is attached as shown in FIG.
[0014]
Further, protrusions 37 are formed on the upper and lower ends as protrusions in the vertical direction. The hinge plate 32 is inserted into the partition 31 through two notches 38 formed on the rear edge of the partition 31 on the door 7 side, and the rotation shaft 35 is positioned there. A spring member 39 made of a coil spring is inserted into the rotating shaft 35, and one end engages with the hinge plate 32 and the other end engages with the claw 400 in the partition 31 separated from the rotating shaft 35. ing. Thus, the partition 31 is always rotated clockwise as indicated by the arrow 410 in FIG. 12 by the restoring force of the coil spring.
[0015]
About the conventional door apparatus comprised as mentioned above, the operation | movement is demonstrated below.
[0016]
The partition 31 is in a state in which the partition member 31 is in contact with the screw 34 along the outer surface of the vertical wall 24 of the door inner plate 21 by the restoring force of the spring member 39 in a state where the door 7 is opened, as indicated by a broken line in FIG. Is retained. Even if the user's hand accidentally hits the partition 31 in this initial state and is rotated counterclockwise in FIG. 12, the spring member 39 can return to the initial state. This operation is performed regardless of the rotation angle of the partition 31. Therefore, it is possible to prevent the door 7 from being closed while the partition 31 is rotated, and the protrusion 37 of the partition member from colliding with the protrusion of the guide member 9 to be damaged.
[0017]
Next, when the door 7 is closed, the protrusion 37 of the partition 31 eventually enters the guide groove 10 and slides along the curved surface in the guide groove 10. Along with this, the partition body 31 rotates counterclockwise against the spring member 39 around the rotation shaft 35, and the protrusion 37 enters the inner part of the guide groove 10. On the contrary, when the door 7 is opened, the projection 37 slides along the curved surface in the guide groove 10. At that time, the partition 31 is rotated clockwise by the restoring force of the spring member 39, and eventually returns to the initial state.
[0018]
[Problems to be solved by the invention]
However, in the conventional configuration described above, the partition 31 is attached to the outside of the vertical wall 24 of the door 7. Therefore, when the doors 7 and 8 are closed, the airtightness of the interior 30 is sufficiently maintained by the gasket 29. When the door is opened, the partition 31 rotates outside the vertical wall 24. Therefore, a space for the partition 31 to rotate must be provided in the doors 7 and 8. That is, the vertical walls 24 and 25 must be moved to the pivot side of the door. For this reason, the food storage space in the doors 7 and 8 is reduced, and it is inconvenient for the user in storing food.
[0019]
Further, when the door 7 is opened and closed, the partition body 31 slides with the projection 37 rotating 90 degrees along the guide groove 10 of the guide member 9. Therefore, the friction coefficient between the protrusion 37 and the guide groove 10 is increased. Therefore, the door opening force of the door 7 is increased, and it is not easy for the user to open and close the door.
[0020]
Furthermore, even if the user thinks that the door has been closed, if the frictional force and the repulsive force of the spring member 39 result in an incomplete closing, the temperature inside the cabinet may rise and the food freshness may decrease. is there.
[0021]
Moreover, since the partition 31 is completely located in the interior 30, the partition 31 is cooled by the cool air in the interior when the door is closed. For this reason, the steel plate 36 comprised in the partition 31 is also cooled. Since the steel plate 36 is in contact with the outside of the cabinet, condensation may occur. Therefore, as a countermeasure, a member (for example, a heater) serving as a heat source must be disposed in the partition. Therefore, the amount of heat absorbed by the refrigerator increases, leading to an increase in the amount of power consumption.
[0022]
[Means for Solving the Problems]
An object of this invention is to provide the door apparatus which ensures the food storage space inside a door effectively, has small door opening force, and is easy to use in view of said subject.
[0023]
Furthermore, the other object of this invention is to provide the refrigerator which can reduce power consumption with the door apparatus which suppressed the heat absorption amount in a door seal structure.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a refrigerator door device according to the present invention will be described with reference to the drawings.
[0025]
(Embodiment 1)
FIG. 1 is an external front view of a refrigerator according to Embodiment 1 of the present invention. FIG. 2 is a perspective view inside the refrigerator of the same embodiment. FIG. 3 is a rear perspective view of the door device of the embodiment. 4 is a sectional view of the door taken along line 4-4 of FIG. FIG. 5 is a cross-sectional view of the door taken along line 5-5 in FIG.
[0026]
In the refrigerator main body 40 of FIGS. 1 to 5, an outer box 41 made of a steel plate, an inner box 42 formed of resin, and a foam heat insulating material (not shown) filled between both boxes 41, 42 are disposed forward. An opened heat insulating box 43 is formed. The heat insulation box 43 includes a plurality of storage chambers 44a, 44b, 44c. The uppermost storage chamber 44a is configured to be opened and closed by two open doors 46 and 47 pivotally supported by upper and lower hinges 45 at the left and right edges.
[0027]
In the heat insulation box 43, a guide portion 48 is provided at a portion located on the non-pivot side of each of the doors 46 and 47 and at an upper portion of the edge of the opening 44 of the heat insulation box 43.
[0028]
In the guide portion 48, two protrusions 49 having the same shape with a circular tip formed side by side in the left-right direction of the opening 44 are formed.
[0029]
The doors 46 and 47 include door outer plates 480 and 490, a flange 50, side plates 51 and 52, door inner plates 53 and 54, and a foam heat insulating material 55.
[0030]
Here, the flange 50 has a U-shape on the outside of the box, and is attached to the side surface of the doors 46 and 47 on the non-pivot side. The side plates 51 and 52 have recesses 51a and 52a. The door inner plates 53 and 54 are in contact with the inner peripheral flanges of the side plates 51 and 52. The foam heat insulating material 55 is filled with foam between the outer plates 48 and 49, the side plates 51 and 52, and the inner plates 53 and 54, respectively.
[0031]
The door storage portions 53a and 54a are formed by the inner plates 53 and 54 on the indoor side of the back surface of the doors 46 and 47.
[0032]
Grooves 56 and 57, fin portions 58 and 59, latch portions 64 and 65, and holding members 68 and 69 are attached in the recesses 51 a and 52 a of the door side plates 51 and 52. Here, the tips of the fin portions 58 and 59 are in contact with the concave portions 51a and 52a.
[0033]
The latch portions 64 and 65 have inclined surfaces 60 and 61 and inclined surfaces 62 and 63, and are located at the same height as the protrusion 49 of the guide portion 48 when the door is closed. The holding members 68 and 69 include rotating shafts 66 and 67.
[0034]
The holding members 68 and 69 extend in a dimension that extends vertically through the opening 44. The holding members 68 and 69 are rotatably supported in the recesses 51 a and 52 a of the door side plates 51 and 52 around the rotation shafts 66 and 67. Further, the holding members 68 and 69 are fixed by detachment preventing members 70 and 71 for preventing the rotation shafts 66 and 67 from detaching from the door side plates 51 and 52. The detachment preventing members 70 and 71 also serve as bearings for the rotating shafts 66 and 67.
[0035]
In the grooves 56 and 57 of the holding members 68 and 69, a bag portion 72 is provided at the front end on the outside of the storage. Further, in the grooves 56 and 57, a movable gasket 73 containing magnets 73a magnetized with different polarities is attached to the holding members 68 and 69 with the same length in the vertical direction so as to face each other.
[0036]
A fixed gasket 73b is attached to the upper and lower sides of the back surfaces of the doors 46 and 47 and the vertical side of the back surface of the doors 46 and 47 on the pivotal side.
[0037]
Spring members 74 and 75 made of coil springs are inserted through the rotary shafts 66 and 67. The spring members 74 and 75 are in contact with the side plates 51 and 52 at one end and the holding members 68 and 69 at the other end, respectively. When the doors 46 and 47 are closed, the fin portions 58 and 59 are in contact with the concave bottom surfaces of the door side plates 51 and 52 to seal the interior 76. Further, the bag portion 72 of the movable gasket 73 seals the inside 76 by contacting the flange 50.
[0038]
About the refrigerator provided with the door apparatus comprised as mentioned above, the operation | movement is demonstrated below.
[0039]
When both doors 46 and 47 are closed, the surfaces of the movable gasket 73 are brought into close contact with each other by the restoring force of the spring members 74 and 75 to seal the inside 76. Further, at that time, the bag shape 72 of the movable gasket 73 comes into contact with the flange 50 of the door side plates 51, 52, so that the cool air in the interior 76 enters between the door side plates 51, 52 and the holding members 68, 69. Even in the state, the inside 76 can be sealed.
[0040]
In addition, the movable gaskets 73 are attracted to each other by joining the magnets 73a having different polarities built in the movable gasket 73. Therefore, the certainty of the seal | sticker of the inside 76 can be improved. Further, the fins 58 and 59 provided in the holding members 68 and 69 seal the inside 76 even in a state where the cold air in the box 76 enters between the door side plates 51 and 52 and the holding members 68 and 69. can do.
[0041]
Next, when the door 47 is opened, the holding member 69 eventually operates such that the inclined surface 63 of the latch portion 65 moves along the protrusion 49 of the guide portion 48. Therefore, the holding member 69 rotates as indicated by the arrow 200 with the rotation shaft 67 as a fulcrum. Thereby, the mutual contact state of the movable gasket 73 is forcibly released. Therefore, when the door is opened, the surfaces of the movable gasket 73 do not rub against each other. Thus, the durability strength of the gasket is improved. Further, the gasket surface is rubbed and static electricity is generated, so that dirt does not adhere to the gasket surface. In addition, the generation of frictional noise due to rubbing of the gasket is eliminated. Furthermore, since the door opening force can be reduced, the usability of the user is improved. When the door 47 is further opened, the inclined surface 61 extends along the protrusion 49 of the guide portion 48 by the restoring force of the spring member 75. Perform the operation. Accordingly, the holding member 69 returns to the same state as the door closed state with the rotation shaft 67 as a fulcrum. This prevents foreign matter from entering between the door side plate 52 and the holding member 69. The same applies to the door closed state.
[0042]
Next, when the door 47 is closed, the inclined surface 61 and the inclined surface 63 perform an operation along the protrusion 49 of the guide portion 48. Therefore, the same operation as the state of opening the door is performed, and the same effect can be obtained.
[0043]
Further, the rotating shafts 66 and 67 are fixed by the disengagement preventing members 70 and 71 in both the closed state and the open state of the door. As a result, the holding members 68 and 69 can be stably and smoothly rotated without being detached from the door side plates 51 and 52 by the restoring force of the spring members 74 and 75.
[0044]
As described above, the door device of the present invention can realize a reliable adhesion seal structure with a simpler structure than the conventional seal structure. Therefore, this door device is economical and can ensure the reliability and stability of operation. Moreover, since this door device does not use a partition body, a heating element for preventing dew condensation is unnecessary. Thus, in this door device, the sealing effect cooperates with the reduction of the heat absorption amount into the storage chamber 44a, thereby reducing the power consumption of the refrigerator.
[0045]
Further, when the above configuration is provided only on one door, the number of components necessary for the movable gasket 73 to rotate is reduced by half. Therefore, the assembling property of the refrigerator is improved and the material cost is reduced.
[0046]
With the above configuration and operation, the partition that has been conventionally provided between the doors can be eliminated. As a result, the food storage space in the storage chamber 44a, particularly the storage space of the door storage portions 53a and 54a on the back of the door, is increased, and the convenience for the user is improved.
[0047]
The guide portion 48 for the latch portion 65 is provided on the upper surface in the storage chamber 44a. Therefore, the guide part 48 does not interfere with the taking in and out of the article into the storage chamber 44a and does not affect the storage capacity of the storage chamber.
[0048]
Further, by providing this door device in the uppermost storage room 44a, the storage space of the storage room with high use frequency that the user can face to face can be improved, and the usability can be improved.
[0049]
In the present embodiment, the movable gasket 73 is provided between the two double doors 46 and 47.
[0050]
Moreover, the same effect is acquired also by providing between two drawer-type doors. At that time, the partition between the drawer doors can be eliminated. Therefore, since the vertical dimension of the storage container that goes in and out with the drawer door can be enlarged, the food storage space is increased.
[0051]
(Embodiment 2)
FIG. 6 is an external front view of the refrigerator according to the second embodiment of the present invention. FIG. 7 is a perspective view inside the refrigerator of the same embodiment. FIG. 8 is a perspective view of the back surface of the refrigerator of this embodiment. 9 is a cross-sectional view of the door taken along line 9-9 in FIG.
[0052]
6 to 9, the refrigerator main body 77 includes a steel plate outer box 78, an inner box 79 made of resin, and a heat insulating box 80 opened forward. The heat insulating box 80 includes a foam heat insulating material (not shown) filled between the boxes 78 and 79. The two open doors 83 and 84 are pivotally supported by the upper and lower hinges 82 at the left and right edges of the upper opening 81 of the heat insulation box 80. The doors 83 and 84 open and close the opening 81.
[0053]
The doors 83 and 84 are configured by door outer plates 85 and 86, concave door side plates 87 and 88, door inner plates 90 and 91, and a foam heat insulating material 91, respectively. Here, the door inner plates 90 and 91 are in contact with the inner peripheral flanges of the side plates 87 and 88, respectively. The foam heat insulating material 91 is filled with foam between the outer plates 85 and 86, the side plates 87 and 88, and the inner plates 89 and 90, respectively.
[0054]
In the concave shaped portions 87a and 88a of the door side plates 87 and 88, grooves 92 and 93, fin portions 94 and 95 whose tips are in contact with the concave shaped portions 87a and 88a of the door side plates 87 and 88, and a surface outside the chamber. The handles 100 and 101 having the handle portions 96 and 97 and the rotating shafts 98 and 99 are respectively attached. The grooves 92 and 93 extend so as to extend vertically through the opening 81. The handles 100 and 101 are supported so as to be pivotable about pivot shafts 98 and 99. The movable gasket 103 is attached to the grooves 92 and 93 so as to face each other and have the same length as the grooves 92 and 93. The movable gasket 103 contains a plurality of magnets 102 magnetized with different polarities. The magnet 102 is magnetized so that the north and south poles face each other with the movable gasket 103 facing each other.
[0055]
Fixed gaskets 103a are attached to the upper and lower sides of the back surfaces of the doors 83 and 84 and the vertical side of the rear surfaces of the doors 83 and 84 on the pivotal side.
[0056]
Spring members 104 and 105 made of coil springs are inserted through the rotating shafts 98 and 99 as repulsion members. One end of each of the spring members 104 and 105 is in contact with the side plates 87 and 88, and the other end is in contact with the handles 100 and 101, respectively. When the doors 83 and 84 are closed, the fin portions 94 and 95 are in contact with the bottom surfaces of the concave portions 87a and 88a of the door side plates 87 and 88. Therefore, the fins 94 and 95 seal between the storage chamber 106.
[0057]
About the refrigerator comprised as mentioned above, the operation | movement is demonstrated below.
[0058]
When both the door opening doors 83 and 84 are closed, the surfaces of the movable gasket 103 are brought into close contact with each other by the restoring force of the spring members 104 and 105 to seal the interior 106. Moreover, the movable gaskets 103 are brought into close contact with each other by joining the magnets built in the movable gasket 103. Therefore, the movable gasket 103 seals the interior 106. Further, the fins 94 and 95 provided in the handles 100 and 101 seal the interior 106 even when the cold air in the interior 106 enters between the door side plates 87 and 88 and the grooves 92 and 93.
[0059]
Next, when the door 84 is opened while putting a hand on the handle 101, the handle 101 rotates as indicated by an arrow 220 about the rotation shaft 99. Accordingly, the movable gasket 103 is forcibly released from the close contact state. Therefore, when the door is opened, the surfaces of the movable gasket 103 are not rubbed against each other, and the durability strength of the gasket is improved. In addition, the gasket surface is not rubbed and static electricity is generated and dirt is not attached. In addition, there is no generation of friction noise due to rubbing of the gasket surface. Furthermore, the door opening force can be reduced, and the user-friendliness is improved.
[0060]
Further, after the door 84 is opened, when the hand is released from the handle 101, the handle 101 is rotated about the rotating shaft 99 by the restoring force of the spring member 105, and returns to the same state as the door closed state. To do. In this way, foreign matter does not enter between the door side plate 88 and the handle 101. The same applies to the door closed state.
[0061]
Next, when the door 84 is closed, in many cases, the magnets 102 in the movable gasket 103 first have the same poles facing each other. Then, since the magnets 102 repel each other, the movable gasket 103 also repels. As a result, the surfaces of the movable gasket 103 are not rubbed against each other, and the same effect as when the door is opened can be obtained. As the door 84 is further closed, the magnets 102 in the movable gasket 103 are opposite to each other, so that they start to attract each other. Eventually, the different poles come close to each other and adsorb, so that the movable gasket 103 ensures a close contact state.
[0062]
With the above configuration and operation, the doors 83 and 84 can be opened by releasing the contact state of the movable gasket 103 only by operating the handle 101 with a light force. Therefore, the user's door operation becomes extremely easy.
[0063]
In addition, the partition body conventionally provided between the doors 83 and 84 can be abolished similarly to the above-mentioned Embodiment 1. FIG. Therefore, the food storage space in the storage chamber 106 is increased, and the user-friendliness can be improved. At the same time, since a heating element for preventing condensation is not required, power consumption can be reduced.
[0064]
【The invention's effect】
In the door device of the present invention, sealing between both doors can be performed by gaskets without using a partition. Therefore, there is an effect from the viewpoint of cost, and the food storage space inside the warehouse can be increased. Moreover, since this door apparatus simplified the sealing structure, the area of the effective storage room in a refrigerator becomes large, and the economical efficiency improves.
[0065]
Moreover, since the door device of the present invention has a high degree of close contact between the doors due to the magnet inside the close contact surface of the gasket, the inside and outside seals can be ensured.
[0066]
Further, since the magnets facing each other at the time of closing the doors have different polarities, the gaskets do not rub against each other due to repulsion between the different polarities. Therefore, the gasket can be tightly sealed while maintaining the durability reliability of the gasket.
[0067]
Moreover, this door apparatus can open a door by light force by operation | movement of a movable gasket.
[0068]
Further, the door device can smoothly perform the operation of the gasket by the latch portion and the guide portion, the gasket is not rubbed against each other, the durability of the gasket is improved, and the force applied to open and close the door is reduced.
[0069]
Moreover, this door apparatus can reduce the force concerning door opening and closing, maintaining the durability of a gasket by the guide part.
[0070]
Further, the door device can easily operate the gasket with a small force by the handle, and can further reduce the force required to open and close the door.
[0071]
Moreover, this door apparatus can return a holding member to the attachment state before operation | movement reliably by a repulsion member, and can prepare for the next operation | movement, and can improve the reliability of operation | movement.
[0072]
Furthermore, since the detachment preventing member provided on the door prevents the rotation shaft from detaching, the operation reliability of the holding member can be improved.
[0073]
Further, the holding member that serves as the bearing of the rotating shaft can improve the operation reliability and stability of the holding member.
[0074]
Moreover, the door opening force can be reduced and the operability can be improved. Furthermore, it is possible to reduce power consumption without using a heating element for preventing condensation.
[0075]
In the refrigerator of the present invention, since the latch portion is provided on the upper portion of the holding member and the guide portion is provided on the upper surface of the storage chamber, the taking in / out of articles into / from the storage chamber is not hindered and the storage property is not affected.
[0076]
Moreover, the refrigerator of the present invention includes a door device in the uppermost storage chamber of the plurality of storage chambers. Therefore, the user can look around and can increase the storage space of the frequently used storage room, which is convenient.
[0077]
As described above, the present invention provides a door device and a refrigerator having many practical effects.
[Brief description of the drawings]
FIG. 1 is a front view of the appearance of a refrigerator according to a first embodiment of the present invention. FIG. 2 is a perspective view of the interior of the refrigerator according to the first embodiment. FIG. 3 is a perspective view of the rear surface of the door according to the first embodiment. FIG. 5 is a cross-sectional view of the refrigerator door of the first embodiment along line 4-4 in FIG. 1. FIG. 5 is a cross-sectional view of the refrigerator door of the first embodiment along line 5-5 in FIG. FIG. 7 is a perspective view of the interior of the refrigerator according to the second embodiment. FIG. 8 is a perspective view of the rear surface of the door according to the second embodiment. FIG. 10 is a sectional view of a conventional refrigerator. FIG. 11 is a front view of a conventional refrigerator. FIG. 12 is a sectional view of a main part of a conventional refrigerator. FIG. Perspective view 【Explanation of symbols】
40 refrigerator main body 43 heat insulation box 44a storage room 46 double door 47 double door 48 guide 49 projection 53a door storage 54a door storage 64 latch 66 rotary shaft 67 rotary shaft 68 holding member 69 holding member 70 Preventive member 71 Disengagement preventive member 73 Movable gasket 73a Magnet 73b Gasket 74 Spring member 75 Spring member 77 Refrigerator body 80 Heat insulation box 83 Double door 83 Open door 100 Handle 101 Handle 102 Magnet 103 Movable gasket

Claims (10)

Two doors arranged with one side of the outer periphery facing each other in the opening of the box,
A gasket that is provided on the back surface of the outer peripheral portion other than the one side surface of the two doors, and is in close contact with the opening front edge of the box when the door is closed;
A pair of gaskets disposed on the one side surface of the two doors and closely contacting each other when the door is closed;
At least one of the pair of gaskets is a movable gasket,
A door device configured to release the mutual adhesion of the pair of gaskets by operating the movable gasket so as to be separated from the other side around a fulcrum when the door is opened ,
A holding member provided on the door and operating to hold the movable gasket;
A latch portion attached to the holding member;
A guide portion that is provided in the box and abuts on the latch portion to operate the holding member;
A door device configured to release the close contact between the pair of gaskets by rotating the holding member around a fulcrum when the door is opened. A double door with both doors pivotally supported on the left and right sides of the opening of the box,
A gasket that is provided on the upper and lower sides of the back surfaces of the doors and the vertical side of the pivots of the doors, and is in close contact with the front edge of the opening of the box when the door is closed;
A pair of gaskets arranged on the non-pivot side surfaces of the doors and in close contact with each other when the door is closed,
At least one of the pair of gaskets is a movable gasket,
A door device configured to release the mutual adhesion of the pair of gaskets by operating the movable gasket so as to be separated from the other side around a fulcrum when the door is opened ,
A holding member provided on the door and operating to hold the movable gasket;
A latch portion attached to the holding member;
A guide portion that is provided in the box and abuts on the latch portion to operate the holding member;
A door device configured to release the close contact between the pair of gaskets by rotating the holding member around a fulcrum when the door is opened. The door device according to claim 1 or 2,
The door apparatus which provided the handle | steering-wheel provided in the said holding member and operating the said movable gasket in the said door. The door device according to any one of claims 1 to 3 ,
A door device provided with a repulsion member that returns the holding member to its original state after the holding member is operated. The door device according to any one of claims 1 to 4,
A rotating shaft provided at a fulcrum for operating the holding member;
The door apparatus which provided the detachment prevention member which prevents detachment | leave of the said rotating shaft in the said door. The door device according to claim 5 ,
The door preventing member is a member that also serves as a bearing for the rotating shaft. A heat-insulating box with a front opening and a storage chamber formed inside;
  A double door with both doors pivotally supported on the left and right sides of the opening of the storage room,
  A gasket that is provided on the upper and lower sides of the rear surfaces of the doors and the vertical vertical side of the pivots of the doors and is in close contact with the front edge of the opening of the heat insulating box when the door is closed;
  A pair of movable gaskets arranged on the non-pivot side surfaces of the doors and in close contact with each other when the door is closed;
  A holding member that holds the movable gasket and rotates about a rotation axis;
  After the holding member rotates, a repelling member that returns the holding member to its original state;
  A latch portion attached to the holding member;
  A guide portion that is provided in the heat insulating box and makes contact with the latch portion to rotate the holding member about the rotation shaft.
And more
  The holding member is rotated by abutting the latch portion and the guide portion when the door is opened to release the close contact between the movable gaskets, and then the door is opened and the holding member is closed by the repulsion member. Refrigerator with door device to return. A heat-insulating box with a front opening and a storage chamber formed inside;
  A double door with both doors pivotally supported on the left and right sides of the opening of the storage room,
  A gasket that is provided on the upper and lower sides of the rear surfaces of the doors and the vertical vertical side of the pivots of the doors and is in close contact with the front edge of the opening of the heat insulating box when the door is closed;
  A pair of movable gaskets arranged on the non-pivot side surfaces of the doors and in close contact with each other when the door is closed;
  A holding member that holds the movable gasket and rotates about a rotation axis;
  After the holding member rotates, a repelling member that returns the holding member to its original state;
  A latch portion attached to the holding member;
  A guide portion that is provided in the heat insulating box and makes contact with the latch portion to rotate the holding member about the rotation shaft.
And more
  After the latch member and the guide portion are brought into contact with each other when the door is closed, the holding member is rotated in the direction of releasing the contact of the movable gasket, and then the holding member is returned by the repulsive member so that the movable gasket is in close contact with each other. A refrigerator with a door device. The refrigerator according to claim 7 or 8, wherein
  The refrigerator which provided the said latch part in the upper part of the said holding member, and provided the said guide part in the upper surface in a storage chamber. The refrigerator according to claim 9,
A refrigerator comprising a plurality of storage rooms and having a door device in the uppermost storage room of the plurality of storage rooms.

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