JP6456500B2 - refrigerator - Google Patents

Description

  The present invention relates to a refrigerator, and more particularly, to a structure of a case or the like that is provided in a refrigerator and accommodates stored items.

  Some refrigerators are provided with a storage case slidably provided in a refrigerator. Here, a conventional storage case opening / closing mechanism is proposed in which a rail portion parallel to the front-rear direction is provided on the upper surface of a horizontal partition that separates the refrigerator compartment and the storage compartment in the freezing temperature zone below the refrigerator compartment. (For example, refer to Patent Document 1). The storage case of the refrigerator of Patent Document 1 is provided with a guide part, and is slidable back and forth on the rail part.

Japanese Patent Laid-Open No. 08-193382

  When the rail part is a convex part and the guide part is a concave part, if the width of the rail part is larger than the width of the guide part, the rail part does not fit into the guide part and functions as an opening / closing mechanism. It will not run out. Here, the width of the rail portion and the guide portion varies in the manufacturing process. Therefore, in consideration of manufacturing variations of the rail portion and the guide portion, a predetermined clearance is secured in the rail portion and the guide portion.

  However, as the clearance increases, the lateral width of the gap between the rail portion and the guide portion increases. For this reason, when the storage case is moved back and forth, the storage case tends to rattle from side to side.

  The present invention has been made to solve the above-described problems, and prevents the storage case from rattling left and right when the slide-type storage case provided in the storage chamber is moved back and forth. It aims to provide a refrigerator that can.

The refrigerator according to the present invention includes a heat insulating box, a storage chamber formed in the heat insulating box, a storage case placed in the storage chamber and provided movably in the depth direction of the storage chamber, and the side of the storage case And an elastic member that is fixed in the storage chamber and presses the storage case in a direction from the first inner surface side of the storage chamber toward the second inner surface side facing the first inner surface, and is disposed under the storage case in the storage chamber. , in which and a support structure in which the elastic member to regulate the movement direction of the storage case to press the storage case with win regulations the moving direction of the housing case in the depth direction.

  In the refrigerator according to the present invention, the storage case is pressed in the direction from the first inner side to the second inner side facing the first inner side by the action of the elastic member, and the storage case and the support structure are in contact with each other. The movement of the storage case in the left-right direction is restricted. Therefore, the refrigerator according to the present invention can prevent the storage case from shaking from side to side when the storage case is moved back and forth.

It is a schematic diagram when the refrigerator which concerns on embodiment of this invention is seen from the front side. It is the figure which looked at the refrigerator compartment of the refrigerator which concerns on embodiment of this invention from the front side of the refrigerator. It is a perspective view of the storage case, water tank, etc. of the refrigerator which concerns on embodiment of this invention. It is a perspective view which shows the state which removed the storage case of the refrigerator which concerns on embodiment of this invention. It is the figure which looked at the storage case and elastic member of the refrigerator which concern on embodiment of this invention from the upper side. It is XX sectional drawing shown in FIG. It is YY sectional drawing shown in FIG. It is explanatory drawing of the contact state of the elastic member and storage case of the refrigerator which concerns on embodiment of this invention. It is a figure which shows the state which is the contact state of the elastic member and storage case of the refrigerator which concerns on embodiment of this invention, Comprising: The elastic member is withdrawn in the recessed part of the storage case. It is a graph which shows the relationship between the reaction force of the elastic member of the refrigerator which concerns on embodiment of this invention, and the extension amount of the elastic member 8. FIG.

Embodiment.
FIG. 1 is a schematic diagram when the refrigerator 100 according to the present embodiment is viewed from the front side. With reference to FIG. 1, the whole structure of the refrigerator 100 is demonstrated. In the following description, the right side and the left side are when the direction from the front side of the refrigerator 100 toward the back side is the front. That is, the right side corresponds to the right side of the paper surface of FIG. 1, and the left side corresponds to the left side of the paper surface of FIG.

[Composition of refrigerator 100]
The refrigerator 100 includes a refrigerator compartment 1, an ice making room 2 and a switching room 3 provided side by side in the left-right direction of the heat insulation box 100 </ b> A, a freezer compartment 4, and a vegetable compartment 5 in the heat insulation box body 100 </ b> A, for example. It is provided as a storage room. The refrigerator compartment 1 is provided with a double door 1A that can be opened and closed. The ice making chamber 2 is provided with a drawer-type door 2A that can be opened and closed freely. Similarly, the switching chamber 3 is provided with a pull-out door 3A, the freezing chamber 4 is provided with a pull-out door 4A, and the vegetable chamber 5 is provided with a pull-out door 5A.

The refrigerator compartment 1 is a storage compartment that maintains a temperature at which the contents are not frozen. The refrigerator compartment 1 is controlled to a temperature in a refrigerator temperature zone (about 2 to 5 ° C.), for example. Note that the refrigeration temperature zone is not limited to this. For example, when a chilled chamber or the like is provided, a lower temperature zone may be used.
The ice making chamber 2 is a storage chamber in which an ice making machine is provided and the ice produced by the ice making machine is stored. The switching chamber 3 is a storage chamber that can switch the temperature zone according to the application. The switching chamber 3 and the ice making chamber 2 are divided into left and right by a vertical partition. Moreover, the refrigerator compartment 1, the ice making compartment 2, and the switching compartment 3 are divided up and down by a horizontal partition. The freezer compartment 4 is a storage room set in a freezing temperature zone. Here, the freezing temperature zone is, for example, about −40 ° C. to 0 ° C. The vegetable room 5 is a storage room mainly for the purpose of storing vegetables. In FIG. 1, the vegetable room 5 is provided below the freezing room 4, but the vegetable room 5 may be provided below the ice making room 2 and the switching room 3, and the freezing room 4 may be provided below the vegetable room 5.

  The heat insulation box 100A is filled with a space between an outer box having an opening on the front surface, a storage chamber defined by a partition wall, an inner box fitted into the outer box from the opening of the outer box, and the outer box and the inner box. Insulated material such as urethane foam.

[Configuration of refrigerator compartment 1]
FIG. 2 is a view of the refrigerator compartment 1 of the refrigerator 100 according to the present embodiment as viewed from the front side of the refrigerator. In addition, in FIG. 2, the state which removed about the double doors 1A is shown in figure. The structure of the refrigerator compartment 1 is demonstrated with reference to FIG.
The refrigerator compartment 1 is formed with a first inner side surface 100A2, a second inner side surface 100A1 facing the first inner side surface 100A2, a back surface 100A3, a bottom surface 100A4, and a top surface 100A5. That is, the space in the refrigerator compartment 1 includes a double door 1A, a first inner side surface 100A2, a second inner side surface 100A1 facing the first inner side surface 100A2, a back surface 100A3, a bottom surface 100A4, and a top surface 100A5. It is a rectangular parallelepiped space formed by. In the refrigerator compartment 1, a storage case 6 and a water tank 15 are arranged.
The storage case 6 is a case that is installed in the refrigerator compartment 1 and on which stored items are placed. The storage case 6 is placed in the refrigerator compartment 1 and is slidably provided in the depth direction (front-rear direction) of the refrigerator compartment 1. The water tank 15 is a case that can store water. The water tank 15 is a structure corresponding to the storage case of the present invention. The storage case is not limited to the water tank 15. The water in the water tank 15 is supplied to an ice making chamber disposed below the refrigerator compartment 1 to become ice.

  In the present embodiment, a case 50 is disposed on the storage case 6 and the water tank 15. The case 50 is provided so as to be slidable in the front-rear direction, similarly to the storage case 6. The case 50 is disposed on the partition member 51 (see FIG. 6). Further, as will be described in detail with reference to FIGS. 3 and 4, a partition member 102 is disposed between the storage case 6 and the water tank 15.

A plurality of shelves 101 on which stored items and the like can be placed are arranged on the first inner side surface 100A2 and the second inner side surface 100A1. The storage case 6 and the water tank 15 are located below the first inner surface 100A2 and the second inner surface 100A1.
The left end of the top surface 100A5 is connected to the upper end of the first inner side surface 100A2, and the left end of the bottom surface 100A4 is connected to the lower end of the first inner side surface 100A2. A back surface 100A3 is connected to the back end of the first inner surface 100A2.
The right end of the top surface 100A5 is connected to the upper end of the second inner side surface 100A1, and the right end of the bottom surface 100A4 is connected to the lower end of the second inner side surface 100A1. A back surface 100A3 is connected to a back side end of the second inner surface 100A1.

The lower portion of the back surface 100A3 is provided so as to face the back side portion of the storage case 6 and the back side portion of the water tank 15. The upper end of the back surface 100A3 is connected to the top surface 100A5, and the lower end of the back surface 100A3 is connected to the bottom surface 100A4.
The bottom surface 100 </ b> A <b> 4 corresponds to the upper surface of the partition member 7 that partitions the refrigerator compartment 1, the switching chamber 3, and the ice making chamber 2. That is, the refrigerator 100 is provided with a partition member 7 that divides the refrigerating chamber 1, the switching chamber 3, and the ice making chamber 2 into upper and lower portions. A storage case 6 and a water tank 15 are disposed on the upper surface of the partition member 7. Moreover, the partition member 102 is also arrange | positioned on the upper surface of the partition member 7 (refer FIG.3 and FIG.4).
The top surface 100A5 is provided to face the shelf 101 in the upper stage.

[Configuration of the partition member 7 and the partition member 102]
FIG. 3 is a perspective view of storage case 6 and water tank 15 of refrigerator 100 according to the present embodiment. FIG. 4 is a perspective view showing a state where storage case 6 of refrigerator 100 according to the present embodiment is removed. 3 and 4 show a state in which the partition member 51 and the like disposed on the storage case 6 and the water tank 15 are removed (see FIG. 6). With reference to FIG.3 and FIG.4, the storage case 6, the water tank 15, the partition member 102, etc. which are the structures on the partition member 7 are demonstrated.

(Partition member 7)
The partition member 7 constitutes the lower surface of the refrigerator compartment 1. The partition member 7 is a horizontal partition that divides the refrigerating chamber 1, the switching chamber 3, and the ice making chamber 2 into upper and lower portions. For example, the partition member 7 has a mounting surface P parallel to the horizontal direction. A storage case 6 and a water tank 15 are placed on the placement surface P. On the mounting surface P, the partition member 102 is provided so as to be orthogonal. That is, the partition member 102 is provided in parallel with the first inner side surface 100A2 and the second inner side surface 100A1 of the refrigerator compartment 1.
As shown in FIG. 4, a support structure R that restricts the storage case 6 to move in the front-rear direction is provided on the placement surface P of the partition member 7. The support structure R includes a rail portion 9A and a rail portion 9B. The rail portion 9A and the rail portion 9B are formed so as to protrude upward, and are constituted by convex portions parallel to the depth direction. That is, the rail portion 9A and the rail portion 9B protrude from the placement surface P side to the storage case 6 side. In the present embodiment, the mode in which the support structure R is configured by two rail portions has been described, but the present invention is not limited thereto. It rail portions may be one or may be three or more.
The rail portion 9A is disposed on the first inner side surface 100A2 side, and the rail portion 9B is disposed on the second inner side surface 100A1 side. More specifically, the rail portion 9A is disposed on the partition member 102 side. Thus, in the storage case 6, each rail part (rail part 9A and rail part 9B) is arrange | positioned at the both-ends side of a horizontal width direction (left-right direction).

(Partition member 102)
The partition member 102 is a vertical partition that partitions the side on which the water tank 15 is disposed and the side on which the storage case 6 is disposed. The partition member 102 is arranged so that one surface faces the water tank 15 and the other surface faces the storage case 6. A case 50 is disposed on the partition member 102 (see FIG. 2). The elastic member 8 is fixed to the other surface of the partition member 102. The fixing means for the partition member 102 and the elastic member 8 is not particularly limited, and may be fixed with an adhesive or may be fixed by forming an engagement structure therebetween. The partition member 102 is formed with a recess 102 </ b> A that serves as a relief when the elastic member 8 is bent and deformed. The recess 102A is formed so as to correspond to the fixing position of the fixing portion 8A. The recess 102A is formed to be recessed in the direction from the storage case 6 side toward the partition member 102 side. For example, the recess 102A is formed at a connection position between a fixing portion 8A and a pressing portion 8B described later.

[Configuration of Storage Case 6 and Elastic Member 8]
FIG. 5 is a view of the storage case 6 and the elastic member 8 of the refrigerator according to the present embodiment as viewed from above. 6 is a cross-sectional view taken along the line XX shown in FIG. 7 is a cross-sectional view taken along line YY shown in FIG. FIG. 5A is a diagram showing a state in which the storage case 6 is fully closed and the pressing portion 8B enters the concave portion 6C3. FIG. 5B is also a diagram showing a state in which the pressing portion 8B enters the concave portion 6C3, as in FIG. 5B schematically shows the angle θ1 of the pressing portion 8B of the elastic member 8 and the angle θ2 of the curved surface 6C1 of the concave portion 6C3. FIG. 7 shows a state where the storage case 6 is open. The storage case 6 and the elastic member 8 will be described in detail with reference to FIGS.

(Storage case 6)
The storage case 6 includes a bottom surface portion 6A constituting the bottom surface, a side surface portion 6B connected to the left end of the bottom surface portion 6A, and a side surface portion 6D connected to the right end of the bottom surface portion 6A. The storage case 6 includes a back surface portion 6F connected to the back side end of the bottom surface portion 6A and a front surface portion 6G connected to the front side end of the bottom surface portion 6A (see FIG. 3).

The bottom surface portion 6A is a plate-like member parallel to the horizontal plane. A first rib 11 and a second rib 12 projecting downward are formed on the bottom surface of the bottom surface portion 6A. The first rib 11 includes a first rib 11A formed at a position corresponding to the position where the rail portion 9A is formed, and a first rib 11B formed at a position corresponding to the position where the rail portion 9B is formed. The first rib 11 is located on the elastic member 8 side with the rail portion 9 as a boundary. The second rib 12 is located on the opposite side (second inner side surface 100A1 side) from the side where the elastic member 8 is disposed with the rail portion 9 as a boundary.
The bottom surface portion 6A of the storage case 6 is placed on the rail portion 9A so that the first rib 11A is formed. Further, the bottom surface portion 6A of the storage case 6 is placed on the rail portion 9B so that the position between the first rib 11B and the second rib 12 is located. Thus, since the refrigerator 100 is provided with the rail part 9, the 1st rib 11, and the 2nd rib 12, it avoids that the whole surface of the bottom face part 6A and the partition member 7 contact, and the bottom face part 6A and Friction with the partition member 7 is suppressed, so that the storage case 6 can move smoothly in the front-rear direction.

The side surface portion 6 </ b> B constitutes the left side surface portion of the storage case 6. In a state where the storage case 6 is fully closed, the side surface portion 6B is provided so as to face the partition member 102 and the elastic member 8. A flange portion 6C that protrudes from the storage case 6 side to the elastic member 8 side is formed at the upper end of the side surface portion 6B. In the present embodiment, the aspect in which the flange portion 6C is formed so as to extend from the front surface portion 6G side to the back surface portion 6F side of the storage case 6 will be described, but is not limited thereto. For example, the flange portion 6C may be formed intermittently toward the back.
The flange portion 6C is connected to the concave portion 6C3 into which at least a part of the elastic member 8 enters when the storage case 6 is fully closed, the convex portion 6C4 connected to the concave portion 6C3, and the convex portion 6C4. Contact portion 6C5.
Recess 6C3 is formed on the front side of the housing case 6 is a part formed as recessed toward Cow direction on the side surface portion 6B side of an elastic member 8 side. When the storage case 6 is fully closed, the pressing portion 8B of the elastic member 8 described later enters the concave portion 6C3. The concave portion 6C3 has a smooth curved surface. Specifically, a smooth curved surface 6C1 is formed in the concave portion 6C3 so as to correspond to the shape of the elastic member 8 from the bottom of the valley of the concave portion 6C3 to the convex portion 6C4. The curved surface 6C1 is an oblique surface that extends from the side surface portion 6B side to the elastic member 8 side as it goes from the front surface portion 6G side to the back surface portion 6F side.
In addition, a smooth curved surface 6C2 is formed in the concave portion 6C3 so as to correspond to the shape of the elastic member 8 from the bottom of the valley toward the front surface 6G side of the storage case 6. Here, the bottom of the valley is the portion of the concave portion 6C3 that is recessed in the direction from the elastic member 8 side toward the side surface portion 6B.

The side surface portion 6 </ b> D constitutes the right side surface portion of the storage case 6. In the state in which the storage case 6 is fully closed, the side surface portion 6B is provided to face the second inner side surface 100A1 (see FIG. 2). A flange portion 6E that protrudes from the storage case 6 side to the second inner side surface 100A1 side is formed at the upper end of the side surface portion 6D.

The rear surface portion 6F has a lower end connected to the bottom surface portion 6A, a left end connected to the rear end of the side surface portion 6B, and a right end connected to the rear end of the side surface portion 6D .
The front surface portion 6G has a lower end connected to the bottom surface portion 6A, a left end connected to the front end of the side surface portion 6B, and a right end connected to the front end of the side surface portion 6D . On the front surface portion 6G, for example, a handle or the like on which the user places a hand is formed.

(Elastic member 8)
The elastic member 8 is positioned in the storage case 6 side of the fixed portion 8A fixed in the refrigerator compartment 1 and the fixed portion 8A, and presses the storage case 6 from the first inner side surface 100A2 side to the second inner side surface 100A1 side. This is a leaf spring integrally formed with the pressing portion 8B.
The fixed portion 8A is a flat plate member. One end of the fixing portion 8A is connected to the pressing portion 8B. The fixed portion 8 </ b> A is fixed to the other surface of the partition member 102. Note that the fixing position of the fixing portion 8A is not limited to this. The fixing position of the fixing portion 8A may be determined according to the arrangement position of the storage case 6. For example, when the partition member 102 is not provided in the refrigerator 100 and the side surface portion 6B of the storage case 6 faces the first inner surface 100A2, the fixing portion 8A is fixed to the first inner surface 100A2. The

  The pressing portion 8B is formed in an arc shape protruding toward the side surface portion 6B of the storage case 6 when viewed in a horizontal cross section. The pressing portion 8B comes into contact with the flange portion 6C and pushes the flange portion 6C when the storage case 6 is open, and enters the concave portion 6C3 when the storage case 6 is fully closed. In the present embodiment, when the storage case 6 is fully closed, a gap S is formed between the concave portion 6C3 of the flange portion 6C and the pressing portion 8B of the elastic member 8, and is in contact therewith. The mode which does not exist is demonstrated. By forming this gap S, the elastic member 8 is in a natural length state when the storage case 6 is fully closed, so that the elastic member 8 is prevented from undergoing creep deformation.

The pressing portion 8 </ b> B is provided so that the tip 8 </ b> C contacts the partition member 102. Thereby, the base portion (fixed portion 8 </ b> A) of the elastic member 8 is fixed to the partition member 102, but the movement of the tip 8 </ b> C is also restricted by contacting the partition member 102.
By adopting such a structure, the dimensional variation and assembly variation of the refrigerator 100 are absorbed by utilizing the flexibility of the leaf spring. Further, with such a structure, the amount of deformation of the elastic member 8 becomes excessive when the storage case 6 is attached and detached, and the base portion (fixed portion 8A) of the elastic member 8 is plastically deformed. Is suppressed.

[Description of operation]
FIG. 8 is an explanatory diagram of a contact state between the elastic member 8 and the storage case 6 of the refrigerator 100 according to the present embodiment. FIG. 9 is a diagram showing a state where the elastic member 8 and the storage case 6 of the refrigerator 100 according to the present embodiment are in contact with each other, and the elastic member 8 is drawn into the concave portion 6C3 of the storage case 6. . 8 and 9 are views of the elastic member 8 and the like seen from the direction of the arrow A shown in FIG. With reference to FIG.8 and FIG.9, the opening / closing operation | movement of the storage case 6 of the refrigerator 100, etc. are demonstrated.

FIG. 8 shows a state in which the storage case 6 is pulled out to the near side.
As shown in FIG. 8, in a state where the contact portion 6C5 of the flange portion 6C and the pressing portion 8B of the elastic member 8 are in contact, the storage case 6 is pressed to the arrow AR side in FIG. Thereby, the storage case 6 moves to the arrow AR side until the rail portion 9 provided on the partition member 7 and the first rib 11 of the storage case 6 come into contact with each other. When the rail portion 9 and the first rib 11 come into contact, the storage case 6 cannot move to the arrow AR side. On the other hand, since the storage case 6 is still pressed against the arrow AR side by the pressing portion 8B of the elastic member 8, the storage case 6 is difficult to move to the side opposite to the arrow AR. In this way, in the state where the contact portion 6C5 and the pressing portion 8B are in contact, the left and right rattling of the storage case 6 is suppressed.

FIG. 9 shows a state in which the storage case 6 is pushed inward and is fully closed.
As shown in FIG. 9, when the curved surface 6C1 of the concave portion 6C3 of the flange portion 6C is in contact with the pressing portion 8B of the elastic member 8, the storage case 6 is pressed to the arrow AR3 side in FIG. Here, the arrow AR3 schematically shows the force with which the elastic member 8 presses the storage case 6 as a vector, but the arrow AR3 shows the force component in the front-rear direction (arrow AR1) and the force component in the left-right direction. (Arrow AR2). The force component corresponding to the arrow AR1 is a component that acts to retract the storage case 6. On the other hand, the force component corresponding to the arrow AR2 is a component that acts to press the storage case 6 against the second inner side surface 100A1.
When the user tries to close the storage case 6 by the force component corresponding to the arrow AR1, the storage case 6 is drawn into the back side of the refrigerator compartment 1 and the operability for the user is improved. Moreover, the right and left shakiness of the storage case 6 is suppressed by the force component corresponding to the arrow AR2 for the same reason as described in FIG.

[About the spring constant of the elastic member 8]
FIG. 10 is a graph showing the relationship between the reaction force of the elastic member 8 and the extension amount of the elastic member 8 of the refrigerator 100 according to the present embodiment. A method for determining the spring constant of the elastic member 8 will be described with reference to FIG.

  The smaller the spring constant of the elastic member 8, the smaller the variation in the reaction force that the elastic member 8 gives to the storage case 6, even if there are variations in the dimensions of the various members. However, if the elastic force of the elastic member 8 is too small, a large stroke amount must be taken, leading to a reduction in the storage volume.

  For example, assume that there is a strong spring having a large spring constant and a weak spring having a small spring constant as shown in the graph of FIG. If each maximum displacement varies by 1 (mm) due to accumulation of dimensional variations of products, the strong spring returns a reaction force with a width of 12 to 16 (N) (see a and c in FIG. 10). On the other hand, the weak spring has a small variation in reaction force of 8 to 10 (N) (see b and d in FIG. 10). However, in order to obtain the same reaction force of 8 (N), a strong spring may be displaced by 3 (mm), while a weak spring must be displaced by 5 (mm).

  Therefore, the stroke of the elastic member 8 that can be secured is calculated from the attachment location of the elastic member 8 and the shape of the storage case 6. And the elastic member 8 is designed so that it may become a spring constant which can give the pressing force required for the right and left shaking suppression of the storage case 6 with respect to the stroke.

[Effects of the present embodiment]
Refrigerator 100 according to the present embodiment is provided with heat insulation box 100A, a storage room (refrigeration room 1) formed in heat insulation box 100A, and placed in the storage room so as to be movable in the depth direction of the storage room. The storage case 6 is fixed in the storage chamber at the side of the storage case 6 and is stored in a direction from the first inner side surface 100A2 side of the storage chamber toward the second inner side surface 100A1 facing the first inner side surface 100A2. An elastic member 8 that presses the storage case 6 and a storage case that is disposed below the storage case 6 in the storage chamber, restricts the movement direction of the storage case 6 to be parallel to the depth direction, and presses the storage case 6 with the elastic member 8 6 and a support structure R that restricts the movement of 6. Accordingly, the storage case 6 is pressed in the direction toward the second inner side surface 100A1 by the action of the elastic member 8. When the storage case 6 is pressed in the direction toward the second inner side surface 100A1, the storage case 6 moves toward the second inner side surface 100A1 when the storage case 6 is closer to the first inner side surface 100A2. Then, the storage case 6 and the support structure R come into contact with each other, and the movement of the storage case 6 is restricted. That is, since the storage case 6 is brought closer to the second inner side surface 100A1 side and is in contact with the support structure R, it cannot move to the second inner side surface 100A1 side, but conversely to the first inner side surface 100A2 side. Also, it is difficult to move due to the reaction force of the elastic action of the elastic member 8. Therefore, the storage case 6 is difficult to move in the left-right direction when moving in the front-rear direction. That is, the refrigerator 100 according to the present embodiment can prevent the storage case 6 from shaking from side to side when the slide type storage case 6 is pulled out and when the storage case 6 is closed.

  The larger the clearance between the rail portion 9 corresponding to the support structure R and the first rib 11 and the second rib 12, the easier it is to withstand manufacturing variations, and the manufacturer is more likely to manage the product. In the conventional refrigerator, as the clearance is increased, the left and right rattling of the storage case 6 is increased. However, the refrigerator 100 according to the present embodiment has solved such a disadvantage. Yes.

  A means for reducing the left and right shakiness of the storage case 6 by reducing the clearance between the rail portion 9 and the first rib 11 and the second rib 12 is also conceivable. However, since this means needs to reduce the manufacturing variation, the manufacturing cost for managing the manufacturing process of the storage case 6 and the like increases accordingly. In the refrigerator 100 according to the present embodiment, since it is not necessary to forcibly reduce the clearance as described above, the left and right rattling of the storage case 6 is suppressed while avoiding an increase in manufacturing cost. be able to.

In addition, since the refrigerator is provided with a cooler or the like, heat shrinkage is likely to occur in members constituting the refrigerator. For this reason, the magnitude | size of the clearance gap between the rail part 9 and the 1st rib 11 and the 2nd rib 12 may differ at the time of normal temperature and a driving | operation. That is, even when the left and right rattling of the storage case 6 is small at normal temperature, the rattling on the left and right may increase during driving.
In the refrigerator 100 according to the present embodiment, the storage case 6 is pressed against the support structure R and the storage case 6 and the support structure R come into contact with each other even when the gap is widened during operation due to the action of the elastic member 8. To do. Thereby, it can suppress that the right and left rattling occurs in the storage case 6 due to the gap.

The elastic member 8 of the refrigerator 100 according to the present embodiment is positioned on the storage case 6 side with respect to the fixing portion 8A fixed in the storage chamber, and from the first inner side surface 100A2 side to the second inner side surface 100A1. And a pressing portion 8B that presses the storage case 6 on the side. The storage case 6 is formed on the side surface portion 6B on the side where the elastic member 8 is disposed, and the concave portion 6C3 into which the pressing portion 8B enters and the side surface portion 6B. The contact portion 6C5 is formed on the back side of the portion where the concave portion 6C3 is formed, and includes a contact portion 6C5 that contacts the pressing portion 8B and is pressed against the pressing portion 8B when the storage case 6 is moved.
That is, the recessed portion 6C3 is positioned on the near side of the storage case 6 and the contact portion 6C5 is positioned on the back side of the storage case 6. Thereby, when the storage case 6 is pulled out to the near side (when opened), the elastic member 8 and the contact portion 6C5 come into contact with each other, and the elastic member 8 contracts. On the other hand, when the storage case 6 is fully closed, the elastic member 8 enters the concave portion 6C3, and the state where the elastic member 8 is contracted is released.
Here, normally, in the refrigerator 100, the time when the storage case 6 is fully closed is longer than when the storage case 6 is pulled out. Therefore, since the refrigerator 100 according to the present embodiment opens the elastic member 8 when the storage case 6 is fully closed, the creep deformation of the elastic member 8 can be suppressed. Thereby, the elasticity of the elastic member 8 is lost, it is possible to further suppress the occurrence of rattling on the left and right of the storage case 6, and the reliability of the refrigerator 100 can be improved.

The pressing portion 8B of the refrigerator 100 according to the present embodiment is formed in an arc shape protruding toward the side surface portion 6B of the storage case 6 when viewed in a horizontal cross section, and the concave portion 6C3 corresponds to the shape of the pressing portion 8B. It is formed in a concave shape. Specifically, the elastic member 8 is configured by a leaf spring. The pressing portion 8B of the elastic member 8 is formed in an arc shape so as to protrude toward the side surface portion 6B when viewed in a horizontal cross section, and has a curved surface that curves smoothly so as to protrude toward the side surface portion 6B. Is formed. The curved surface includes a curved surface from the second inner side surface 100A1 side to the first inner side surface 100A2 side as it goes from the top portion that protrudes most to the storage case 6 side to the fixed portion 8A side. The concave portion 6C3 is formed with curved surfaces (curved surface 6C1 and curved surface 6C2) corresponding to the curved surface. Therefore, when the storage case 6 is closed and the pressing portion 8B and the concave portion 6C3 come into contact with each other, the curved surfaces come into contact with each other, and a force for pulling the storage case 6 in the closing direction is generated (see FIG. 9 ). With this structure, it is possible to assist the user when closing the storage case 6 and improve operability.
Moreover, since the elastic member 8 is comprised with the leaf | plate spring, it can avoid that it is bulky and can use the limited space in the refrigerator compartment 1 effectively. Further, the elastic member 8 is constituted by a leaf spring, avoiding the use of a complicated mechanism. For this reason, while being able to suppress manufacturing cost, repair etc. are easy even if it breaks, and repair cost can also be suppressed.

  Here, as shown in FIG. 5B, the angle of the portion having the tightest angle in the curved surface 6C1 is defined as θ1. Specifically, the angle θ1 is the largest of the angles formed by the front-rear direction DR of the storage case 6 and the tangent line of the curved surface 6C1. On the other hand, as shown in FIG. 5B, the angle of the portion having the tightest angle among the pressing portions 8B of the elastic member 8 to be described later is defined as θ2. Specifically, the angle θ2 is the maximum of the angles formed by the front-rear direction DR of the storage case 6 and the tangent line on the curved surface of the pressing portion 8B. In the present embodiment, the angle θ2 is larger than the angle θ1. Thereby, the force of the direction which closes the storage case 6 is applied more appropriately.

When the storage case 6 is fully closed, a structure (concave structure) in which the entire storage case 6 falls downward is used to assist the user in closing the storage case 6. You can also. However, when the amount of stored items placed in the storage case 6 increases, the load acting on the storage case 6 increases, so that the force required to pull out the storage case 6 also increases, making it difficult to open and close. Become. Further, when this concave structure is provided on the horizontal partition, the heat insulation thickness is locally reduced, and the surface temperature of the concave structure is lowered due to the influence of the temperature of the storage room in the freezing temperature zone under the refrigerator compartment 1. As a result, the surface of the refrigerator compartment side may condense. Further, when the storage case 6 falls into the recess or comes out of the recess, the storage case 6 is moved up and down, and the storage case 6 hits a component (partition or the like) on the upper side of the storage case 6 to damage the appearance. Further, if a clearance is provided so that the storage case 6 does not hit the upper part of the storage case 6, a dead volume is generated. Furthermore, there is a problem that dust in the refrigerator or spilled liquid accumulates in a concave structure and is difficult to clean.
Refrigerator 100 according to the present embodiment employs concave portion 6C3, and the concave structure is not in the vertical direction but in the horizontal direction. For this reason, problems such as difficulty in opening and closing, dew condensation, scratching and deteriorating appearance, dead volume, and difficulty in cleaning are less likely to occur.

  The contact portion 6C5 of the refrigerator 100 according to the present embodiment is formed at a connection portion with the concave portion 6C3, and a convex portion 6C4 that protrudes toward the elastic member 8 is formed. Thereby, when the storage case 6 pulled out by the user is closed, it is possible to recognize by hand touch that the storage case 6 is fully closed. Further, since the storage case 6 can be more fully closed, it can be avoided that the storage case 6 that is fully closed unintentionally moves to the near side and opens. . Therefore, for example, when the storage case 6 is used as a chilled chamber, it is possible to avoid leakage of cold air in the storage case 6.

  In refrigerator 100 according to the present embodiment, storage case 6 is fully closed between concave portion 6C3 and pressing portion 8B, and pressing portion 8B and pressing portion 8B are pressed into concave portion 6C3. A gap S is formed so as not to contact the portion 8B. Thereby, since the elastic member 8 will be in a natural length state when the storage case 6 is fully closed, the creep deformation of the elastic member 8 can be suppressed more reliably. Therefore, the elasticity of the elastic member 8 is lost, and the occurrence of rattling on the left and right of the storage case 6 can be further suppressed.

  In the refrigerator 100 according to the present embodiment, the support structure R is provided on the placement surface of the storage case 6 in the storage room, is parallel to the depth direction, and protrudes from the placement surface side to the storage case 6 side. The storage case 6 includes a rail portion 9 and is formed on the bottom surface portion 6A, protrudes toward the rail portion 9 on the side of the rail portion 9 on the side where the elastic member 8 is disposed, and is parallel to the depth direction. The rib 11 is included. Thereby, when the storage case 6 is pressed in the direction toward the second inner side surface 100A1 by the action of the elastic member 8, the storage case 6 is kept in the second state until the first rib 11 and the rail portion 9 come into contact with each other. Move to the inner surface 100A1 side. When the first rib 11 and the rail portion 9 come into contact with each other, the storage case 6 no longer moves to the second inner side surface 100A1 side, and also moves to the elastic member 8 side by the elastic force of the elastic member 8. It becomes difficult. That is, when the sliding storage case 6 is moved back and forth, the storage case 6 can be prevented from shaking from side to side.

  In the refrigerator 100 according to the present embodiment, the storage case 6 is formed on the bottom surface portion 6 </ b> A, and the rail portion is located on the side opposite to the side on which the first rib 11 is disposed on the side of the rail portion 9. 9 includes a second rib 12 that protrudes toward the side 9 and is parallel to the depth direction. As a result, both sides of the rail portion 9 are guided. Therefore, when the storage case 6 is moved back and forth, even if a force that exceeds the elastic force of the elastic member 8 is applied to the side where the elastic member 8 is disposed, the storage case 6 is on the elastic member 8 side. It can avoid moving to (1st inner surface 100A2 side).

  Refrigerator 100 according to the present embodiment is provided on the mounting surface of storage case 6, and is provided between a storage case (for example, water tank 15) attached to storage case 6, and between the storage case and storage case 6. A partition member 102 is further provided, which partitions the side on which the storage case is disposed and the side on which the storage case 6 is disposed, and the elastic member 8 is fixed to the partition member 102. Thus, the refrigerator 100 which concerns on this Embodiment is not limited to the elastic member 8 being fixed to the side surface of the refrigerator compartment 1 directly. That is, the elastic member 8 may not be fixed to the first inner side surface 100A2 or the like, and may be fixed to a member (partition member 102) that partitions the space of the refrigerator compartment 1. Even in this mode, even when the elastic member 8 is fixed to the first inner side surface 100A2 or the like of the refrigerator compartment 1, the storage case is moved when the sliding storage case 6 is moved back and forth. It can suppress that 6 shakes from side to side.

  In the refrigerator 100 according to the present embodiment, the partition member 102 is formed in front of the fixing position of the elastic member 8, and the elastic member 8 escapes when the elastic member 8 is bent in contact with the storage case 6. A recess 102A is formed. Thereby, it can avoid that the member (vertical partition) to which the elastic member 8 and the elastic member 8 are fixed interferes, and the member to which the elastic member 8 is fixed is damaged. Moreover, since the elastic member 8 escapes when the elastic member 8 bends, the front-rear drawer of the storage case 6 is also smooth.

Storage case 6 of the refrigerator 100 according to this embodiment is placed on the bottom of the refrigerator compartment 1 is an example of the storage chamber. For example, the storage case 6 can be used as a chilled room.

  In the refrigerator 100 according to the present embodiment, the gap S is not formed, and the concave portion 6C3 of the flange portion 6C and the pressing portion 8B of the elastic member 8 may be in contact with each other. Since there is no substitute for the concave portion 6C3 being formed in the refrigerator 100, even if the elastic member 8 does not return to its natural length, the load on the elastic member 8 can be reduced to some extent, and creep deformation can be achieved. Can be suppressed.

  Although the refrigerator 100 which concerns on this Embodiment demonstrated the aspect in which the case 50 was provided, it is not limited to it and does not need to be provided.

  Although the support structure R of the refrigerator 100 according to the present embodiment has been described as being formed to extend in a straight line, it is not limited thereto. For example, the support structure R may be partly interrupted and intermittently formed.

  Although the refrigerator 100 which concerns on this Embodiment demonstrated the aspect in which the rail part 9 is a convex structure and the storage case 6 is a concave structure, it is not limited to it. For example, the rail portion 9 may have a concave structure, and the storage case 6 may have a convex structure. In this case, one or a plurality of concave portions extending in the front-rear direction may be formed in the partition member 7, and the convex portions that fit into the concave portions may be formed on the bottom surface portion 6 </ b> A of the storage case 6. In this case, since the concave structure is adopted, there is a possibility that condensation may occur due to the cold air of the ice making chamber 2 or the like, and cleaning may be difficult. However, when the sliding storage case 6 is moved back and forth, it is possible to prevent the storage case 6 from shaking from side to side.

  1 refrigerator compartment, 1A double door, 2 ice making room, 2A drawer door, 3 switching room, 3A drawer door, 4 freezer room, 4A drawer door, 5 vegetable room, 5A drawer door, 6 storage case, 6A Bottom face part, 6B side face part, 6C flange part, 6C1 curved face, 6C2 curved face, 6C3 concave part, 6C4 convex part, 6C5 contact part, 6D side face part, 6E flange part, 6F back face part, 6G front face part, 7 partition member, 8 elastic member, 8A fixing portion, 8B pressing portion, 8C tip, 9 rail portion, 9A rail portion, 9B rail portion, 11 first rib, 11A first rib, 11B first rib, 12 second rib, 15 water tank , 50 case, 51 partition member, 100 refrigerator, 100A heat insulation box, 100A1 second inner surface, 100A2 first inner surface, 100A3 back surface, 100A4 bottom surface, 100 A5 Top surface, 101 shelf, 102 partition member, 102A recess, AR arrow, AR1 arrow, AR2 arrow, AR3 arrow, P placement surface, R support structure, S gap.

Claims (12)

An insulated box,
A storage chamber formed in the heat insulating box;
A storage case placed in the storage chamber and provided movably in the depth direction of the storage chamber;
An elastic member fixed in the storage chamber at a side of the storage case and pressing the storage case in a direction from the first inner surface side of the storage chamber toward the second inner surface side facing the first inner surface;
A support structure that is disposed under the storage case in the storage chamber, restricts the movement direction of the storage case in the depth direction, and restricts movement of the storage case in a direction in which the elastic member presses the storage case;
With refrigerator. The elastic member is
A fixing part fixed in the storage chamber;
A pressing portion that is positioned closer to the storage case than the fixed portion and presses the storage case from the first inner surface side to the second inner surface side;
The storage case is
A concave portion that is formed on a side portion on the side where the elastic member is disposed, and into which the pressing portion enters,
The contact part which is formed in the back | inner side rather than the part in which the said recessed part is formed among the said side parts, contacts the said pressing part at the time of the movement of the said storage case, and includes the contact part pressed against the said pressing part. The refrigerator described. The pressing portion is
When viewed in horizontal section,
Formed in an arc shape projecting to the side surface side of the storage case,
The concave portion is
The refrigerator according to claim 2, wherein the refrigerator is formed in a concave shape so as to correspond to the shape of the pressing portion. The contact portion is
The refrigerator according to claim 2 or 3, wherein a convex portion is formed at a connection portion with the concave portion and protrudes toward the elastic member. Between the concave portion and the pressing portion,
5. The gap is formed so that the concave portion and the pressing portion do not come into contact with each other when the storage case is fully closed and the pressing portion enters the concave portion. The refrigerator according to item. The support structure is
Provided on the mounting surface of the storage case in the storage chamber, is a shape extending in the depth direction, and includes a rail portion protruding from the mounting surface side to the storage case side,
The storage case is
The first rib that is formed on the bottom surface and protrudes toward the rail portion at a side of the rail portion on the side where the elastic member is disposed and includes a shape extending in the depth direction. The refrigerator according to one item. The storage case is
A second rib that is formed on the bottom surface and protrudes toward the rail portion on the side opposite to the side where the first rib is disposed, and extends in the depth direction. The refrigerator according to claim 6. A storage case provided on the mounting surface of the storage case and provided alongside the storage case;
A partition member provided between the storage case and the storage case, and partitioning the side on which the storage case is disposed and the side on which the storage case is disposed;
The elastic member is
The refrigerator according to any one of claims 1 to 7, wherein the refrigerator is fixed to the partition member. In the partition member,
The refrigerator according to claim 8, wherein a recess is formed on the front side of the fixing position of the elastic member, and the elastic member escapes when the elastic member is bent in contact with the storage case. The partition member is
The refrigerator according to claim 8 or 9, wherein the refrigerator is a vertical partition provided between the first inner surface and the second inner surface. The elastic member is
The refrigerator according to any one of claims 1 to 7, wherein the refrigerator is fixed to the first inner surface . The storage room is a refrigerator room,
The refrigerator according to any one of claims 1 to 11, wherein the storage case is placed on a bottom portion of the refrigerator compartment.

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