JP6073199B2 - refrigerator - Google Patents

Description

  The present invention relates to a refrigerator provided with a drawer-type door.

  Various refrigerators that have a drawer-type door that opens and closes by operating in the front-rear direction have been proposed. In this type of drawer-type door, it is common practice to provide a handle portion on the front surface of the door to be pulled out by hand when the door is opened (see, for example, Patent Document 1).

JP 2009-36454 A

  However, in the refrigerator described in Patent Document 1, since it is necessary to provide a recess in the portion where the handle portion is provided, the thickness of the heat insulating layer inside the door is thinner than the other portion where there is no recess in the portion where there is a recess. There was a problem that heat insulation was impaired. In addition, if it is attempted to ensure heat insulation with the door provided with a dent, it is necessary to cause the heat insulation layer to protrude (bulge out) on the inside of the warehouse at the portion corresponding to the dent. is there.

  The present invention solves the above-described conventional problems, and an object thereof is to provide a refrigerator capable of easily opening and closing a door and improving heat insulation.

The present invention includes a drawer chamber formed in the refrigerator main body and having an opening on the front surface, a drawer door that opens and closes the opening of the drawer chamber by operating in the front-rear direction, and a front plate constituting the front surface of the drawer door When a seal member for sealing between the peripheral portion and the drawer door of the opening, provided on the left and right side surfaces of opposite ends of the drawer door, and a handle to pull out the drawer door, wherein the sealing member A magnetic force generating part that accommodates a magnet that attracts the seal member to the peripheral edge of the opening inside, the side surface is located outside the edge of the front plate in the left-right direction, and the handle is A recess that opens outward in the left-right direction, and the recess has a front wall that extends from the edge of the front plate along the back surface of the front plate toward the inside in the left-right direction, and the front The wall is on the left and right sides of the magnetic force generator. And it is located in the inside.

  ADVANTAGE OF THE INVENTION According to this invention, while the door opening / closing operation | movement is easy, the refrigerator which can improve heat insulation can be provided.

It is a front view which shows the refrigerator which concerns on 1st Embodiment. It is AA arrow sectional drawing of FIG. FIG. 3 is a cross-sectional view taken along line B-B in FIG. 2. It is a perspective view which shows the drawer-type door of the refrigerator which concerns on 1st Embodiment. It is CC sectional view taken on the line of FIG. It is the D section expanded sectional view of FIG. It is the EE arrow directional cross-sectional view of FIG. It is a figure explaining the effect in the door of the refrigerator which concerns on 1st Embodiment. It is a figure explaining another effect in the door of the refrigerator concerning a 1st embodiment. It is sectional drawing which shows the structure at the time of making the front plate of a door into a steel plate as a contrast diagram explaining the effect at the time of making the front plate of a door into glass. It is sectional drawing which shows the handle part of the refrigerator which concerns on 2nd Embodiment. It is sectional drawing which shows the handle part of the refrigerator which concerns on 3rd Embodiment. It is explanatory drawing of the effect | action corresponding to FIG. 8 in the door of the refrigerator which concerns on a comparative example. FIG. 14 is a cross-sectional view taken along line F-F in FIG. 13. It is a figure explaining the effect | action corresponding to FIG. 7 when the door of the refrigerator which concerns on a comparative example is arrange | positioned up and down. It is explanatory drawing of the effect | action corresponding to FIG. 9 in the door of the refrigerator which concerns on a comparative example.

  Hereinafter, the refrigerator according to the embodiment of the present invention will be described in detail. In the following description, the 6-door type will be described as an example, but the invention may be applied to a 5-door or less type.

(First embodiment)
FIG. 1 is a front view showing the refrigerator according to the first embodiment. In addition, below, it demonstrates on the basis of the direction when the refrigerator 1A is seen from the front.
As shown in FIG. 1, a refrigerator 1A includes a refrigerator compartment 2, an ice making compartment 3, a switching compartment (upper freezer compartment, quick freezer compartment) 4, a lower freezer compartment 5 (drawer room, first storage room / below, freezer compartment 5). And a vegetable room 6 (drawer room, second storage room).

  The refrigerator 1A includes rotary doors 2a and 2b for opening and closing the opening 2s (see FIG. 2) of the refrigerator compartment 2, and a drawer-type door 3a for opening and closing the opening 3s (see FIG. 2) of the ice making chamber 3. Drawer-type doors 4a that open and close the opening 4s (see FIG. 2) of the switching chamber 4 are provided.

FIG. 2 is a cross-sectional view taken along line AA in FIG. In FIG. 2, illustrations of containers installed in the refrigerator compartment 2, the ice making compartment 3, the switching compartment 4, the freezer compartment 5, and the vegetable compartment 6 are omitted. Moreover, in FIG. 2, the drawer-type doors 5a and 6a have shown the external shape instead of the cross section.
As shown in FIG. 2, the refrigerator 1A includes a drawer-type door 5a (drawer door) that opens and closes the opening 5s of the freezer compartment 5, and a packing 25 (sealing member, which seals a gap between the freezer compartment 5 and the door 5a). 5 to 7). The refrigerator 1A includes a drawer-type door 6a (drawer door) that opens and closes the opening 6s of the vegetable compartment 6, and a packing 25 (sealing member, FIG. 5 to FIG. 7) that seals a gap between the vegetable compartment 6 and the door 6a. Reference).

  The refrigerator 1 </ b> A includes a refrigerator main body (housing, box) 10. The refrigerator main body 10 includes a top wall 10a, a side wall 10b (only the left side is shown), a back wall (rear wall) 10c, and a bottom wall 10d, and a vacuum heat insulating material is arranged inside each wall 10a, 10b, 10c, 10d. In addition, the space excluding the vacuum heat insulating material is filled with a foam heat insulating material such as rigid urethane foam. That is, each of the walls 10a, 10b, 10c, and 10d is configured as a heat insulating wall that insulates the inside and the outside of the refrigerator 1A.

  In addition, the refrigerator main body 10 partitions and insulates the refrigerator compartment 2 between the refrigerator compartment 2, the ice making compartment 3 and the switching compartment 4, and separates the refrigerator compartment 2 in the refrigeration temperature zone and the ice making compartment 3 and the switching compartment 4 in the freezing temperature zone. A wall 10e is provided. Moreover, the refrigerator main body 10 partitions and insulates between the freezer compartment 5 and the vegetable compartment 6 between the freezer compartment 5 in the freezing temperature zone (storage temperature zone) and the vegetable compartment 6 in the storage temperature zone higher than the freezing temperature zone. A partition heat insulating wall 10f is provided. The refrigerator body 10 includes the ice making chamber 3, the switching chamber 4, and the freezing chamber 5 in the same freezing temperature zone, and includes a partition member 10g that is not a partition heat insulating wall but a simple partition. The front surface of the partition member 10g is configured as a front surface (receiving surface) 10g1 of a packing 25 (see FIG. 7) described later.

  On the back surface (rear surface) of the door 5 a of the freezer compartment 5, a drawer frame 5 b that extends horizontally rearward is provided. In FIG. 2, only one drawer frame 5b is shown, but the door 5a is provided with a pair of left and right drawer frames 5b. A reinforcing plate 5c bent in a substantially U shape is stretched over the pair of left and right drawer frames 5b. Each drawer frame 5 b is slidably supported in a groove of a rail 10 h provided on the inner wall of the side wall 10 b of the refrigerator body 10.

Similarly, a drawer frame 6b extending horizontally rearward is also provided on the back surface (rear surface) of the door 6a of the vegetable compartment 6. The door 6a is also provided with a pair of left and right drawer frames 6b, and a reinforcing plate 6c having a substantially U shape is stretched over the drawer frame 6b. Each drawer frame 6b is slidably supported in a groove of a rail 10i provided on the side wall 10b of the refrigerator body 10.
A drawer container (not shown) is placed on each of the drawer frames 5b and 6b and the reinforcing plates 5c and 6c. The drawer container is pulled out along with the drawer operation of the doors 5a, 6a, and can store and take out food.

  In the freezer compartment 5 and the vegetable compartment 6, drive devices 5d and 6d for opening the doors 5a and 6a by a switch operation are provided. The driving devices 5d and 6d are operated by pressing the switches SW1 and SW2 (see FIG. 1) provided on the doors 5a and 6a, and open the doors 5a and 6a forward. The drive devices 5d and 6d are composed of an electric motor, a speed reduction mechanism, a link mechanism, and the like (not shown).

  The refrigerator body 10 is provided with a refrigeration cycle unit. This refrigeration cycle unit is configured by connecting a compressor (not shown), a condenser (not shown), a capillary tube (not shown), an evaporator (not shown), and a compressor again in this order. Yes. The compressor and the condenser are installed in a machine room 10 j provided at the lower back of the refrigerator body 10. The evaporator is installed in a cooler room (not shown) provided behind the freezing room 5, and a blower fan (not shown) is installed above the evaporator in the cooler room.

  The cold air generated by the evaporator is sent to the storage rooms of the refrigerating room 2, the ice making room 3, the switching room 4, the freezing room 5, and the vegetable room 6 by a blower fan. Specifically, a part of the cool air sent by the blower fan is sent to the refrigerating room 2 and the storage room in the refrigeration temperature zone of the vegetable room 6 via the damper device that can be opened and closed, and the other part is The ice making chamber 3, the switching chamber 4, and the freezing chamber 5 are sent to a storage chamber in a freezing temperature zone.

3 is a cross-sectional view taken along line BB in FIG.
As shown in FIG. 3, in the refrigerator body 10, the wall thickness (wall thickness) of the side wall 10b1 (10b) corresponding to the freezer compartment 5 is T1, and the side wall 10b2 (10b) corresponding to the vegetable compartment 6 is When the wall thickness (wall thickness) is T2, the wall thickness T2 of the vegetable compartment 6 is configured to be thinner than the wall thickness T1 of the freezer compartment 5 (T1> T2). Moreover, also about the back wall 10c of the refrigerator main body 10, the wall thickness of the back wall 10c2 (10c, refer FIG. 2) of the vegetable compartment 6 is thinner than the wall thickness of the back wall 10c1 (10c, refer FIG. 2) of the freezer compartment 5. It is comprised so that it may become. Thereby, while being able to reduce the heat leak (cold air leak) from the freezer compartment 5, it becomes possible to increase the volume in the vegetable compartment 6. FIG.

FIG. 4 is a perspective view showing the drawer door of the refrigerator according to the first embodiment. Since the door 5a and the door 6a have the same configuration, the door 5a will be described below as an example.
As shown in FIG. 4, the door 5a includes an upper plate 21a, a bottom plate 21b, a back plate 21c (see FIG. 5), a front plate 22 (glass plate), and side plates 23 and 24 (side surfaces). The space formed by the upper plate 21a, the bottom plate 21b, the back plate 21c, the front plate 22 and the side plates 23 and 24 is filled with a foam heat insulating material such as rigid urethane foam.

  The front plate 22 is made of tempered glass, for example, and constitutes substantially the entire front surface of the door 5a. Thus, by making the front plate 22 made of glass, a flat feeling can be enhanced as compared with the case where the front plate 22 is made of a steel plate. When the front plate 22 is formed of a steel plate, when foaming and filling the hard urethane foam inside the door, a corrugated shape may occur on the surface of the steel plate due to the foaming pressure. On the other hand, when the front plate 22 is made of glass, the glass surface is not deformed by the foaming pressure of the hard urethane foam. Therefore, even if the door area is increased by configuring the front plate 22 with glass, the flat front plate 22 can be configured over the entire surface.

  The side plate 23 is disposed so as to protrude outward (left side) from the left end edge portion of the front plate 22 and includes a handle portion 23a for hanging a hand (finger) and pulling the door 5a forward (front side). . Similarly, the side plate 24 is formed so as to protrude outward (right side) from the right edge of the front plate 22, and has a handle 24 a for hanging a hand (finger) and pulling the door 5 a forward (front). I have.

  The handle portions 23a and 24a are formed at the upper ends of the side plates 23 and 24 in the vertical direction (vertical direction). Thereby, in refrigerator 1A (refer FIG. 1), a user becomes easier to handle than the case where the handle parts 23a and 24a are provided in the lower part of the side plates 23 and 24. FIG.

5 is a cross-sectional view taken along the line CC of FIG.
As shown in FIG. 5, the handle portion 23 a has a concave portion 23 a 1 that opens to the left side, and is positioned in front of the doors 5 a and 6 a in the thickness direction (front-rear direction). Further, the handle portion 23a is located on the outer side (left side) of the extension line S1 of the inner wall surface 10b3 of the side wall 10b of the refrigerator body 10, in other words, within the range of the wall thicknesses T1 and T2 of the side wall 10b. ing.

  The handle 24a has a recess 24a1 that opens to the right, and is positioned in front of the door 5a, 6a in the thickness direction (front-rear direction). The handle 24a is located outside (on the right side) the extension line S2 of the inner wall surface 10b5 of the side wall 10b of the refrigerator body 10, in other words, within the range of the wall thicknesses T1 and T2 of the side wall 10b. ing.

  Further, the door 5a is provided with a packing 25 (seal member) that is in close contact with the refrigerator main body 10 and ensures airtightness of the freezer compartment 5. In the outer periphery of the back surface of the door 5a, the packing 25 includes a front surface 10b4 of the left side wall 10b, a front surface 10b6 of the right side wall 10b, a front surface 10g1 (see FIG. 2) of the partition member 10g, and a partition heat insulation wall 10f. Is provided in a square frame shape so as to face the front surface 10f1 (see FIG. 2).

  Further, on the outer periphery of the rear surface of the door 6a, a packing 25 is provided on the door 6a. The front surface 10b4 of the left side wall 10b, the front surface 10b6 of the right side wall 10b, and the front surface 10f1 of the partition heat insulating wall 10f (see FIG. 2). ) And the front surface 10d1 (see FIG. 2) of the bottom wall 10d, respectively, in a rectangular frame shape.

FIG. 6 is an enlarged cross-sectional view of a portion D in FIG. Since the handle portion 23a and the handle portion 24a are in a plane symmetry relationship, only the handle portion 23a will be described below, and description of the handle portion 24a will be omitted.
As shown in FIG. 6, the handle portion 23a is formed with a curved surface portion 23b on the front side (front side) of the center in the front-rear direction (the thickness direction of the doors 5a, 6a) of the side plate 23, and a flat surface portion 23c on the rear side. Is formed. Further, the concave portion 23a1 of the handle portion 23a is formed in the curved surface portion 23b.

  Further, the concave portion 23a1 of the handle portion 23a includes a front wall 23a2 formed along the back surface (rear surface) 22a from the edge portion 22b of the front plate 22, an intermediate wall 23a3 extending rearward from the front wall 23a2, and an intermediate wall 23a3. And a rear wall 23a4 that is substantially parallel to the front wall 23a2 from the rear portion or whose outer side gradually goes away from the front wall 23a2.

  Further, the rear wall 23a4 is formed to be longer outward (left side) than the opening end of the front wall 23a2, and is located up to the boundary portion between the curved surface portion 23b and the flat surface portion 23c. A folded portion 23a5 that holds the edge portion 22b of the front plate 22 is formed at the opening end of the front wall 23a2.

  Thus, by forming the handle portion 23a on the curved front surface portion 23b, the user (user) stands in front of the refrigerator 1A (see FIG. 1) and opens the doors 5a and 6a from the front. The position of the handle portion 23a can be easily recognized, and a hand (finger) can be inserted into the handle portion 23a from the front (no need to insert a hand (finger) from the right side or the left side. ) Can improve usability.

  The packing 25 is disposed between the back surfaces (rear surfaces) of the doors 5a and 6a and the front surface 10b4 of the side wall 10b, and is inserted into and fixed to a recess 21c1 formed in the back plate 21c. Further, the packing 25 includes a magnetic force generator 25b in which a band-shaped magnet 25a is accommodated. As a result, the magnetic force generating portion 25b of the packing 25 is attracted to the iron plate embedded in the side wall 10b, and the packing 25 is brought into close contact with the side wall 10b, so that the sealability (airtightness) of the door 5a with respect to the freezer compartment 5 is ensured. The

7 is a cross-sectional view taken along line EE in FIG.
As shown in FIG. 7, positioning ribs 21 a 1 are formed on the inner wall surface of the upper plate 21 a so as to be in contact with the rear surface (rear surface) 22 a of the front plate 22 for positioning. The positioning rib 21a1 is located between the handle portion 23a and the handle portion 24a in the left-right direction along the upper edge of the front plate 22 (see FIG. 6).

Further, a positioning rib 21a2 (see FIG. 6) is formed on the inner wall surface of the upper plate 21a so as to contact and position the intermediate wall 23a3 of the handle portion 23a. The positioning rib 21a2 is formed in a vertical direction (a direction perpendicular to the paper surface) at a position corresponding to the intermediate wall 23a3.
Positioning ribs 21b1 are formed on the inner wall surface of the bottom plate 21b so as to be in contact with the rear surface (rear surface) 22a of the front plate 22 for positioning. The positioning rib 21 b 1 is located between the side plates 23 and 24 along the lower edge of the front plate 22.

  The bottom plate 21b is formed with a flange portion 21b2 that protrudes forward and supports the lower end of the front plate 22. The collar portion 21 b 2 is located between the side plates 23 and 24 along the lower edge of the front plate 22.

  The back plate 21c is configured such that the distance (T3) to the front plate 22 is substantially the same or a predetermined distance or more over the vertical direction corresponding to the freezer compartment 5 and the vegetable compartment 6. The back plate 21c is positioned in the vertical direction between the upper edge and the lower edge of the openings 5s, 6s of the freezer compartment 5 and the vegetable compartment 6. Further, the back plate 21c is configured such that the distance from the front plate 22 is substantially the same in the left-right direction corresponding to the freezer compartment 5 and the vegetable compartment 6 (see FIG. 5).

  In the door 5 a configured in this way, the entire space surrounded by the upper plate 21 a, the bottom plate 21 b, the back plate 21 c, the front plate 22 and the side plates 23 and 24 is filled with a foam heat insulating material. Therefore, in 1st Embodiment, it comprises as the heat insulation layer R1 of thickness T3 in the whole area | region corresponding to the opening part 5s of the freezer compartment 5. As shown in FIG.

  In addition, it is comprised similarly to the door 5a about the door 6a, and is comprised as a heat insulation layer of predetermined thickness in the whole area | region corresponding to the opening part 6s (refer FIG. 2) of the vegetable compartment 6 (refer FIG. 2). . In addition, the thickness of the heat insulation layer of the door 6a of the vegetable compartment 6 is formed thinner than the thickness T3 of the heat insulation layer R1 of the door 5a of the freezer compartment 5.

  Next, the effects of the refrigerator 1A of the first embodiment will be described with reference to the drawings while comparing with the comparative example. FIG. 8 is a diagram for explaining the operational effect of the refrigerator door according to the first embodiment, and FIG. 9 is a diagram for explaining another operational effect of the refrigerator door according to the first embodiment. 13 is an explanatory view of the operation corresponding to FIG. 8 in the refrigerator door according to the comparative example, FIG. 14 is a sectional view taken along line FF in FIG. 13, and FIG. 15 is arranged vertically on the refrigerator door according to the comparative example. FIG. 16 is an explanatory view of the operation corresponding to FIG. 9 in the door of the refrigerator according to the comparative example. First, the drawer door 100 of a comparative example is demonstrated with reference to FIG. 13 and FIG.

  As shown in FIG. 13, the drawer-type door 100 as a comparative example is provided with a handle portion 101 for pulling out the door 100 by placing a hand (finger) on the upper part of the front surface. The handle portion 101 is located at a substantially central portion of the door 100 in the left-right direction.

  As shown in FIG. 14, a handle portion 101 as a comparative example has a concave portion 101 b having a substantially U shape in a longitudinal sectional view in which a hand (finger) is inserted from above in an upper plate 100 a. The bottom surface 101b1 of the recess 101b is located below the lower surface 10g2 of the partition member 10g in the vertical direction (vertical direction).

  By the way, when the door 100 as a comparative example is closed, when the door 100 is opened by placing a hand (finger) on the point P10 (see FIG. 13) of the handle 101, as shown by the white arrow in FIG. On the other hand, for example, the forces F11, F11, F12, F12, and F13 dispersed in the left direction, the right direction, the diagonally lower left direction, the diagonally lower right direction, and the downward direction with respect to the point P10 are the packing 25 (see FIG. 14). Acts as a peeling force.

On the other hand, when the door 5a according to the first embodiment is closed, when the door 5a is opened by placing a hand (finger) on the point P4 (see FIG. 8) of the left handle portion 23a, FIG. As indicated by the white arrow, the forces F1, F2, and F3 distributed in the right direction, the diagonally lower right direction, and the lower direction with respect to the point P4 are, for example, in the left and right direction (width direction) of the upper portion of the door 100. This acts as a force for peeling the packing 25 (see FIG. 5). Here, the general drawer-type door 100 generally has a configuration in which the horizontal dimension (width dimension) is larger than the vertical dimension (height dimension). This is because if the height dimension is too large, the food stored in the storage chamber is often hidden by the food stored on the storage chamber, and the usability is reduced. For this reason, the horizontal dimension (width dimension) is made larger than the vertical dimension (height dimension) to facilitate storage and arrangement, and the entire stored item can be easily seen when the drawer-type door 100 is pulled out.

  In this way, in the door 100 as a comparative example, the handle portion 101 is located at the approximate center in the left-right direction of the upper portion, so that both left and right sides with respect to the packing 25 located in the left-right direction (width direction) of the upper portion of the door 100 The forces F11, F11, F12, and F12 are dispersed (see FIG. 13). Moreover, since the packing 25 is arrange | positioned toward the right-and-left both sides from the point P10 and it is closely_contact | adhered to the refrigerator main body by the magnetic force generation part, big force is needed to peel off the packing 25. FIG.

  On the other hand, in the door 5a according to the first embodiment, since the handle portion 23a is located at the upper corner, the left and right direction (width direction) of the upper portion of the door 100 and the vertical direction of the left side portion of the door 100 ( Forces F1 and F2 are applied to the right side with respect to the vicinity of the intersection of the packing 25 located in the height direction). Therefore, dispersion of force on the packing 25 is suppressed, and a large peeling force acts on the packing 25. Further, since the handle portion 23a is located at the upper end portion of the door 5a, when the door 5a is opened, the peeling forces F1, F2, and F3 act on the corner portions of the rectangular frame-shaped packing 25. The force for peeling off the packing 25 can be made smaller than that of the comparative example.

  Further, when the door 5a is opened using the handle portion 23a, as shown in FIG. 5, the packing 25 is in close contact with the magnetic force generating portion 25b (see FIG. 6) on the right side (the horizontal direction of the handle portion 23a). Since the rotational moment M1 acts on the handle portion 23a with the point P2 on the opposite side (see FIG. 5) as a fulcrum, the packing 25 can be easily peeled off. Further, when the door 5a is opened using the handle portion 23a, as shown in FIG. 7, the lower side (the vertical direction of the handle portion 23a) in which the packing 25 is in close contact with the magnetic force generating portion 25b (see FIG. 6). Since the rotational moment M2 acts on the handle 23a with the point P3 (see FIG. 7) on the opposite side as a fulcrum, the packing 25 can be easily peeled off. Incidentally, the moments M1 and M2 are generated with respect to the door 5a because the drawer frame 5b (see FIG. 2) of the door 5a and the rail 10h (see FIG. 2) provided on the side wall 10b (see FIG. 2) of the refrigerator main body 10 are shown. This is because a clearance for smoothing the drawing operation is provided between the groove (see 2).

  Thus, by arranging the handle portion 23a on the upper left end of the door 5a, the packing 25 can be peeled off from the front surface 10b4 with a smaller force (drawing force) than the door 100 as a comparative example (conventional). The door 5a can be opened more easily than the conventional case, that is, it can be opened with a small force.

  Moreover, in the door 100 as a comparative example, as shown in FIG. For this reason, in the region of the heat insulating layer R100 having a thin thickness T100, the concave portion 101b of the handle portion 101 is easily cooled, so that dew (condensation) is generated on the handle portion 101 and the refrigeration is not performed until dew (condensation) occurs. The heat (cold air) in the chamber 5 escapes and goes against energy saving. In other words, if heat (cold air) escapes, the temperature in the warehouse rises, so the inside of the warehouse must be cooled, and energy saving is impaired by repeating such a cycle excessively. .

  As shown in FIG. 15, for example, when the freezer compartment 5 and the vegetable compartment 6 are arranged above and below, the door 100A (100) is arranged in the freezer compartment 5, and the door 100B (100) is arranged in the vegetable compartment 6. In the vertical direction (height direction), the packing 25A (25) of the door 100A and the packing 25B (25) of the door 100B are shared with the partition heat insulating wall 10f. In this case, since the door 100A and the door 100B are close to each other in the vertical direction, the concave portion (the bottom surface of the concave portion) of the handle portion 101 moves downward, and the thin portion of the heat insulating layer R100 having the thickness T100 increases. Will do. When the thickness of the thin heat insulating layer R100 is increased in the portion of the thin heat insulating layer R100 having the thickness T100 as indicated by a one-dot chain line in FIG.

  Therefore, in the first embodiment, by providing the handle portion 23a on the side surface of the door 5a, a thin portion of the heat insulating layer R100 does not occur, and as shown in FIG. 7, the entire region of the opening 5s of the freezer compartment 5, that is, The upper and lower inter-partition dimensions (dimensions between the partition member 10g and the partition heat insulating wall 10f) can be closed by the door 5a having the heat insulating layer R100 having a thickness T3.

  In addition, as shown in FIG. 16, for example, when the refrigerator 300 is arranged in front of the sink 200, it is common for a user to stand (bend) in front of the refrigerator 300 and open and close the doors 100 </ b> A and 100 </ b> B. is there. However, in recent years, as the size of the refrigerator increases, the depth of the refrigerator, that is, the pull-out distance L100 tends to become long, so that the user himself / herself obstructs the opening and closing of the door 5a, and the pull-out distance of the doors 100A and 100B. You can no longer earn L100. For this reason, it becomes difficult to take out the food etc. in the back | inner side of the container (not shown) mounted in door 100A, 100B.

  Therefore, in the first embodiment, as shown in FIG. 9, the user stands (bends) beside (left or right) the refrigerator 1 </ b> A and hangs on the handle portion 23 a (or handle portion 24 a) to open the door. The doors 5a and 6a can be opened by pulling 5a and 6a forward. Even when the doors 5a and 6a are opened in such a situation, as described above, the arrangement of the handle portions 23a and 24a at the upper corners of the doors 5a and 6a, and the rotational moment M1 (see FIG. 5) and Due to the generation of the rotational moment M2 (see FIG. 7), the doors 5a and 6a can be opened with a smaller force than before.

  As described above, according to the refrigerator 1A of the first embodiment, the handle portions 23a and 24a for pulling out the doors 5a and 6a are provided at the left and right ends of the doors 5a and 6a (see FIGS. 2 and 5). ), By forming a recess in the upper part of the doors 5a and 6a, it is possible to prevent a thin portion of the heat insulating layer from being formed, so that the heat insulating property can be improved. Moreover, since it is not necessary to make the back plate 21c of the doors 5a and 6a protrude rearward (inside the cabinet) and to form a thick heat insulating layer, the volume in the freezer compartment 5 and the vegetable compartment 6 can be reduced. Absent. Incidentally, even if the handle portions 23a, 24a are provided on the left and right ends of the doors 5a, 6a, the handle portions 23a, 24a can be made shallower than the wall thicknesses T1, T2 of the side wall 10b of the refrigerator body 10 (see FIG. 5), the heat insulating layer R1 of the doors 5a and 6a in the region corresponding to the openings 5s and 6s (see FIG. 2) of the freezer compartment 5 and the vegetable compartment 6 is not thinned (see FIG. 7).

  In the first embodiment, the front surfaces of the doors 5a and 6a are front plates 22 made of glass (made of tempered glass), and the handle portions 23a and 24a (front walls 23a2) are in contact with the back surface 22a of the front plate 22. Has been. Accordingly, the glass front plate 22 can be used as a reinforcing member for the handle portions 23a and 24a. When the doors 5a and 6a are pulled out by placing the hands on the handle portions 23a and 24a, the handle portions 23a and 24a are used. Can be prevented from being deformed. Further, by reinforcing with the glass front plate 22, it is not necessary to form the handle portions 23a, 24a to be excessively thick. Further, by using the glass front plate 22, the handle portions 23a and 24a can be arranged immediately behind the front plate 22, so that it is easy to place the hands on the handle portions 23a and 24a (see FIG. 6). .

By the way, the case where the front plate is made of glass instead of the front plate will be described with reference to FIG. FIG. 10 is a cross-sectional view showing a configuration when the front plate of the door is made of a steel plate as a comparison diagram for explaining the effect when the front plate of the door is made of glass.
As shown in FIG. 10, when the front plate 400 is made of a steel plate, if the handle portion 410 is provided so as to be in contact with the back surface 400a of the front plate 400, the strength of the handle portion 410 cannot be ensured. A heat insulating layer R10 such as a foam heat insulating material having a predetermined thickness must be provided between the front plate 400 and the handle portion 410, and the handle portion 410 is positioned rearward (back side) from the front plate 400. Thus, when the handle portion 410 is located on the back side, for example, when the refrigerator 1A is installed on the wall surface M, the insertion of the hand (finger) is obstructed by the wall surface M, and the hand (finger) is placed on the handle portion. It becomes difficult to hang 410. Therefore, in the first embodiment, the front plate 22 is made of glass, so that the handle portions 23a and 24a can be arranged immediately behind the front plate 22. Therefore, even if the refrigerator 1A is installed on the side wall M on the side. It becomes possible to hang a hand (finger) on the handle portions 23a and 24a without being disturbed by the wall surface M.

  Moreover, in 1st Embodiment, the side plate 23 (side surface) is located in the outer side rather than the edge 22b of the front plate 22, and the curved surface part 23b (inclined surface) which inclines so that it may approach the front plate 22 toward the front. The handle portions 23a and 24a are provided on the curved surface portion 23b. Thereby, even if the refrigerator 1A is installed on the wall surface M such as furniture, the handle portions 23a and 24a can be visually recognized from the front of the refrigerator 1A, and a hand (finger) is inserted from the front to the wall surface M. It is possible to place a hand (finger) on the recess 23a1 without hitting it.

  In the present embodiment, the handle portions 23 a and 24 a are provided at positions where the packing 25 overlaps when viewed from the front-rear direction. Thus, when the hands (fingers) are put on the handle portions 23a and 24a to open the doors 5a and 6a, the packing 25 can be efficiently peeled off without dispersing the force for peeling the packing 25 from the front surface 10b4. it can.

  In the present embodiment, the handle portions 23 a and 24 a are located above the side plates 23 and 24. As a result, the handle portions 23a and 24a are positioned at the corners of the packing 25, so that when the hands (finger) are opened on the handle portions 23a and 24a to open the doors 5a and 6a, the packing on the bottom side of the doors 5a and 6a Rotation moment M2 acts with 25 as a fulcrum P3, making it easier to peel off the packing 25 and opening the doors 5a and 6a with a smaller force (see FIG. 7).

  In the present embodiment, the handle portions 23a and 24a are provided on the left and right sides of the doors 5a and 6a. Thereby, when the user is on the left side of the refrigerator 1A, the door 5a, 6a can be opened using the left handle 23a, and when the user is on the right side of the refrigerator 1A, the right side The doors 5a and 6a can be opened by using the handle part 24a, and the handle parts 23a and 24a can be used properly according to the standing position of the user, thereby improving the usability of the user.

  Moreover, in this embodiment, the handle parts 23a and 24a of the freezer compartment 5 are located above the drawer frame 5b in the vertical direction (vertical direction). Moreover, the handle parts 23a and 24a of the vegetable compartment 6 are located at substantially the same height as the drawer frame 6b in the vertical direction (vertical direction) (see FIG. 2). Accordingly, when the user puts his hands (finger) on the handle portions 23a and 24a to open the doors 5a and 6a, the rotational moment M2 is utilized using the clearance between the drawer frames 5b and 6b and the rails 10h and 10i. (Refer to FIG. 7) can be generated more easily, and the doors 5a and 6a can be opened with a smaller force.

(Second Embodiment)
FIG. 11 is a cross-sectional view showing a handle portion of the refrigerator according to the second embodiment. In addition, about the structure similar to 1st Embodiment, the same code | symbol is attached | subjected and the overlapping description is abbreviate | omitted.
As shown in FIG. 11, the refrigerator 1 </ b> B according to the second embodiment has a tapered portion 23 d instead of the curved surface portion 23 b of the side plate 23 of the first embodiment. Thus, even if it is the door 5a provided with the taper part 23d, the effect similar to 1st Embodiment can be acquired. The inclination angle of the tapered portion 23d can be changed as appropriate.

(Third embodiment)
FIG. 12 is a cross-sectional view illustrating a handle portion of the refrigerator according to the third embodiment. In addition, about the structure similar to 1st Embodiment, the same code | symbol is attached | subjected and the overlapping description is abbreviate | omitted.
As shown in FIG. 12, the refrigerator 1 </ b> C according to the third embodiment has a curved surface portion 23 e that curves inward toward the rear instead of the flat surface portion 23 c of the side plate 23 of the first embodiment. Thus, even if it is the door 5a provided with the curved surface part 23e, the effect similar to 1st Embodiment can be acquired. Further, by providing the curved surface portion 23e, when there is a wide space on the side surface of the refrigerator 1C, the doors 5a and 6a can be opened by placing the hand on the curved surface portion 23e.

  In addition, about the shape of the side plate 23, it is not limited to 1st thru | or 3rd embodiment, For example, the structure which curves entirely toward the front end from the rear end of the side plate 23 may be sufficient. Moreover, the structure which combined the taper shape and the curved surface shape may be sufficient.

  The present invention is not limited to the above-described embodiment, and various design changes can be made without departing from the scope of the invention. For example, in the present embodiment, the case where the handle portions 23a and 24a (handles) are provided on the side plates 23 and 24 (side surfaces) of the doors 5a and 6a has been described as an example. As long as it is located within the range of the wall thicknesses T1 and T2 (see FIG. 3) of the refrigerator body 10, the openings of the handle portions 23a and 24a may be formed on the front surfaces of the doors 5a and 6a. . Moreover, if it is located in the range of wall thickness T1, T2 (refer FIG. 3) of the refrigerator main body 10 at the right-and-left both ends of the doors 5a and 6a, it may be a handle gripped by hand and pulled. Rotating retractable handles that can store handles in the doors 5a and 6a may be used.

  In the present embodiment, the case where the handle portions 23a and 24a are provided at the left and right ends of the doors 5a and 6a has been described as an example. However, only the handle portion 23a may be provided, and only the handle portion 24a may be provided. It is sufficient that it is at least one of the left and right ends.

  In the present embodiment, the refrigerator 1A provided with the freezer room 5 on the upper side and the vegetable room 6 on the lower side is described as an example. However, the vegetable room 6 is provided on the upper side, and the freezer room 5 is provided on the lower side. It may be a refrigerator.

1A, 1B, 1C Refrigerator 5 Freezer room (drawer room, first storage room)
5a Door (drawer door)
5b Drawer frame 5s Opening (opening)
6 Vegetable room (drawer room, second storage room)
6a Door (drawer door)
6b Drawer frame 10 Refrigerator body 10h, 10i Rail 22 Front plate (glass plate)
22a Back 23a, 24a Handle (handle)
23b Curved surface portion 23d Taper portion 25 Packing (seal member)

Claims (6)

A drawer chamber formed in the refrigerator body and having an opening on the front surface;
A drawer door that opens and closes the opening of the drawer chamber by operating in the front-rear direction;
A front plate constituting the front surface of the drawer door;
A sealing member that seals between the peripheral edge of the opening and the drawer door ;
Provided on the side surfaces of both ends of the drawer door in the left-right direction, and a handle for pulling out the drawer door ,
The seal member includes a magnetic force generation unit that houses therein a magnet that attracts the seal member to the peripheral portion of the opening.
The side surface is located on the outer side in the left-right direction from the edge of the front plate,
The handle has a recess that opens outward in the left-right direction,
The recess has a front wall that goes inward in the left-right direction along the back surface of the front plate from the edge of the front plate,
The refrigerator , wherein the front wall is located on the inner side in the left-right direction with respect to the magnetic force generation unit . The front plate, refrigerator according to claim 1, characterized in that a glass plate. The side includes a curved portion or a tapered portion approaches said glass plate toward the front towards,
The refrigerator according to claim 2, wherein the handle is provided on the curved surface portion or the tapered portion. The refrigerator according to any one of claims 1 to 3 , wherein the handle is located at an upper portion of the side surface. The drawer door includes a drawer frame that is slidably supported by a rail provided in the drawer chamber,
The refrigerator according to any one of claims 1 to 4 , wherein the handle is positioned at substantially the same height as the drawer frame or above the drawer frame in the vertical direction. Two drawer rooms,
One of the drawer chambers is a first storage chamber, and the other of the drawer chambers is a second storage chamber having a higher storage temperature zone than the first storage chamber,
The said refrigerator main body is formed in the thickness of the wall of the said 2nd storage chamber thinner than the wall thickness of the wall of the said 1st storage chamber, The any one of Claims 1-5 characterized by the above-mentioned. The refrigerator described.

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