JP3680159B2 - refrigerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a refrigerator having an ice making unit.
[0002]
[Prior art]
Conventionally, this type of refrigerator is provided with a refrigeration case on the back side of a pull-out freezer compartment door, an ice making shelf above the freezer compartment, as disclosed in, for example, Japanese Patent Laid-Open No. 10-141842, and the ice making When the ice making tray slidably held on the shelf is placed, the ice making tray is placed on the ice making tray and the freezer compartment door is pulled out, the ice making tray follows the front of the freezer compartment. There is something to derive.
[0003]
[Problems to be solved by the invention]
In the refrigerator as described above, when there are an ice storage part and a storage part for storing other stored items (for example: frozen food) in the freezing case, in order to take out the other stored items in the freezing case, When the door is pulled out, the refrigeration case is pulled out, and the ice storage part is always pulled out at the same time, and if the refrigeration case is pulled out for a long time, a part of the stored ice melts. In this case, dust and dust enter the ice storage part, and the dust and dust adhere to the stored ice, resulting in a loss of energy and poor hygiene.
[0004]
[Means for Solving the Problems]
The refrigerator according to the present invention solves the above-described problems, and the refrigerator according to the present invention includes an ice making unit provided in a part of a freezing room, an ice storage unit provided below the ice making unit, and the ice making unit and the ice storage unit. Including a drawer door at a front portion of the freezer compartment, and a storage container provided so as to cover at least a part of the ice storage section. Together Moving, providing a guide part on the outside of the side wall of the ice making part, an attachment part provided inside the ice storage part is attached to the guide part so as to be movable in the front-rear direction, Provide a contact portion in the storage container, provide a contact portion on the storage container side of the ice storage portion, When the door is opened, When the storage container moves forward, the contact portion of the storage container contacts the contact portion of the ice storage portion from the rear. In conjunction with the movement of the drawer door, the ice storage part moves forward to a predetermined position, and the ice storage part Box part for storing ice At least a part of is left in the cabinet.
[0005]
The refrigerator of the present invention is The ice making part is provided with walls on the front, rear, left and right, and an ice making tray that is rotated to release ice is surrounded by the wall and is rotatably attached. Attached to any of the walls It is characterized by.
[0006]
The refrigerator of the present invention opens the door. In this case, the ice storage part moves forward to a predetermined position by a protrusion that protrudes upward and below the lower part of the storage container comes into contact with a protrusion that protrudes downward and forward of the lower part of the ice storage part. After that, when pulling out the ice storage part to the front, at least the inner surface of the bottom of the storage container The protrusion is The lower part of the ice storage part is supported.
[0007]
And the refrigerator of the present invention is When a handle portion is provided above the front outer surface of the ice storage portion and the door is closed, the handle portion is formed between the front inner surface of the storage container and the front outer surface of the ice storage portion and below the handle portion. In the space, a storage unit was provided to store the shovel-like container. It is characterized by.
[0012]
Moreover, when the refrigerator of the present invention stores the ice storage part in a refrigerator, The guide part is the mounting part At least a portion other than the portion that supports the ice is separated from the ice storage portion.
[0013]
Furthermore, when the refrigerator of the present invention takes the ice storage part in or out, or stores the ice storage part in a cabinet, Of the guide part, the mounting part, the connecting part connecting the riding part of the ice storage part and the box part of the ice storage part, and the support part of the storage container At least a part is characterized by having an inclined portion for removing water.
[0015]
Moreover, the refrigerator of the present invention has at least the above-mentioned ice storage part when stored in a warehouse. Around the part where the guide part supports the protrusion provided on the lower surface of the mounting part Is characterized by being struck with cold air.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the refrigerator of the present invention will be described with reference to the drawings.
[0017]
1 is a side sectional view showing the refrigerator of the present invention, FIG. 2 is an enlarged view of the main part near the ice storage part of the refrigerator of FIG. 1, and FIG. 3 is an enlarged main part when the heat insulating door near the ice storage part of FIG. 4 is an enlarged view of the main part when the ice storage part is pulled out in FIG. 3, FIG. 5 is a cross-sectional view of the main part in the vicinity of the ice storage part in FIG. 2, and FIG. It is an enlarged view.
[0018]
In FIG. 1, a refrigerator 1 has an inner box 3 arranged inside an outer box 2 that covers the outside, and a gap between the outer box 2 and the inner box 3 is filled with a heat insulating material 4 such as urethane foam. Reference numeral 5 denotes an electrical box including a control device 5a for controlling the operation of the refrigerator 1, and the control device 5a is electrically connected to each electrical component described later of the refrigerator 1. Moreover, the inside of the refrigerator 1 is divided into the refrigerator compartment 6, the vegetable compartment 7, and the freezer compartment 8 in order from the top.
[0019]
The vegetable compartment 7 and the freezer compartment 8 are partitioned by a partition frame 9 made of a heat insulating member and a partition plate 10 made of a heat insulating member, and the freezer compartment 8 is further divided by a partition frame 11 made of a heat insulating member and the upper freezer compartment 8a and the lower freezer compartment. It is partitioned into 8b. The refrigerator compartment 6 and the vegetable compartment 7 are partitioned by a partition frame 12 made of a heat insulating member and partition plates 13 and 14 made of a resin molded product. The partition plate 14 is provided with a through hole 14a.
[0020]
An ice greenhouse 16, which is an isolation room partitioned by a partition plate 15, is provided at the lower part of the refrigerator compartment 6. The refrigerator compartment 6 is provided with a plurality of shelves 17. The front surface of the refrigerator compartment 6 can be opened and closed by a rotating heat insulating door 18. The front of the vegetable compartment 7, the upper freezer compartment 8a and the lower freezer compartment 8b can be opened and closed by means of sliding heat insulating doors 19, 20 and 21, respectively, and the storage containers 22, 23 and 24 can be drawn out. .
[0021]
A compressor 25 is disposed at the rear of the freezer compartment 8. A condenser (not shown) is connected to the compressor 25 via a discharge pipe 25a, and a cooler 26 is connected via a suction pipe 25b. The condenser (not shown) and the cooler 26 are connected via a capillary tube (not shown).
[0022]
Thus, a refrigeration cycle is configured, and the cooler 26 is cooled when the refrigeration cycle operation is performed. A defrost heater 27 for defrosting the cooler 26 is provided below the cooler 26. 28 is a drain receiving member.
[0023]
The cooler 26 is disposed in the cool air passage 29, and the lower portion of the cool air passage 29 is formed by the inner box 3 and an evaporative cover 30 made of a resin molded product. A blower 31 is disposed above the cooler 26 in the cool air passage 29. The cool air passage 29 communicates with the freezer compartment 8 through discharge ports 32 a and 32 b provided in the back plate 32 and a return port 33 a provided in the return port cover 33.
[0024]
The back of the vegetable compartment 7 is covered with the aforementioned partition plate 10, and the pressure chamber 34 above the cold air passage 29 is formed by the evaporation cover 30 and the partition plate 10. The partition plate 10 made of a heat insulating member prevents overcooling of the vegetable compartment 7 provided close to the cooler 26.
[0025]
The cold air passage 29 communicates with a cold air passage 35 disposed above the blower 31 via a damper 36. The lower part of the cold air passage 35 is formed by a heat insulating member 38 and an inner box 3 fixed to the back plate 37 of the ice greenhouse 16. Further, the rear plate 37 and the heat insulating member 38 are provided with openings 37a and 38a at the same position. The ice greenhouse 16 communicates with the cold air passage 35 through the openings 37a and 38a.
[0026]
The cool air passage 35 is branched by a rib 35c into a central passage 35a disposed substantially at the center and side passages 35b provided on both sides of the central passage 35a. The ribs 35 c are formed integrally with the back plate 39.
[0027]
The upper part of the cold air passage 35 is formed by a member 40 that forms the inner wall of the refrigerator compartment 6 and a back plate 39 provided on the inner box 3. Further, the outer side wall of the side passage 35b is formed by a back plate 39, and a plurality of openings (not shown) are provided on the side wall.
[0028]
Further, a wall surface portion (not shown) covering the outer periphery of the member 40 is formed on the back plate 39 on substantially the same plane as the member 40. A plurality of discharge portions (not shown) communicating with the openings are recessed in the wall surface portion. Accordingly, the side passage 35b communicates with the refrigerating chamber 6 by the discharge portion and the opening, and the cool air can be discharged into the refrigerating chamber 6.
[0029]
A ceiling duct 43 is formed on the ceiling portion of the refrigerator compartment 6 by an upper plate 42 made of a resin molded product and the inner box 3. The ceiling duct 43 is arranged side by side and communicates with the central passage 35a. Then, the cool air can be discharged by being distributed to the left and right by the ceiling discharge ports 42 a provided in the upper surface plate 42. An illumination lamp 45 covered with a transparent illumination cover 44 is provided between the left and right ceiling ducts 43.
[0030]
In the refrigerator 1 having the above-described configuration, the internal temperature of the freezer compartment 8 rises, and the temperature detected by temperature detecting means (not shown) provided in the freezer compartment 8 exceeds a predetermined temperature (for example, −18 ° C.). When the compressor 25 and the blower 31 are driven by the control device 5a, the air in the freezer compartment 8 is guided to the cold air passage 29 from the return port 33a. The air is cooled by exchanging heat with the cooler 26 and flows into the freezer compartment 8 from the discharge ports 32a and 32b. As a result, the inside of the freezer compartment 8 is cooled to a predetermined temperature.
[0031]
Further, when the internal temperature of the refrigerator compartment 6 rises and the temperature detected by the temperature detecting means (not shown) provided on the back of the refrigerator compartment 6 exceeds a predetermined temperature (for example, 5 ° C.), control is performed. When the compressor 25 and the blower 31 are driven by the device 5a to open the damper 36, the cold air exchanged heat with the cooler 26 flows through the cooling passage 28 through the damper 36, and a part of the cold air Flows into the ice greenhouse 16 from the openings 37a, 38a. Thereby, the inside of the ice greenhouse 16 is cooled to −1 ° C., for example.
[0032]
The other cold air branches into the central passage 35a and the side passage 35b and proceeds. The cold air passing through the side passage 35b is discharged from a discharge portion (not shown) of the back plate 39 into the refrigerator compartment. The cold air passing through the central passage 35a passes through the ceiling duct 43 and is discharged from the ceiling discharge port 42a. Therefore, the inside of the refrigerator compartment 6 is efficiently and uniformly cooled by the cold air dispersed and discharged from the discharge part and the ceiling discharge port 42a.
[0033]
The air in the refrigerator compartment 6 passes between the shelves 17 and the front surface of the shelves 17, circulates through the cold air passage 46 from below the ice greenhouse 16 through the opening 14 a, and flows into the front of the vegetable compartment 7. Furthermore, the inside of the vegetable compartment 7 is cooled through the lower side from the front surface of the storage container 22. Then, the cool air circulates from the outlet (not shown) through the duct (not shown) to the lower part of the cooler 26. Note that the damper 36 opens and closes according to the temperature of the refrigerator compartment 6 detected by the temperature detection means (not shown) of the refrigerator compartment 6, and maintains the temperature of the refrigerator compartment 6 and the vegetable compartment 7 at, for example, 3 ° C. ing.
[0034]
Further, when the member 40 is formed of a heat conductive member having heat conductivity such as aluminum, an alloy thereof, or stainless steel, a part of the cold heat generated by the cold air flowing through the central passage 35a is transmitted to the member 40, and the side Since cold heat is discharged from the entire surface including the front surface of the passage 35b to the refrigerating chamber 6, the refrigerating chamber 6 is composed of the cold heat from the member 40 and the cold air dispersed and discharged from the discharge portion of the back plate 39 and the ceiling discharge port 42a. The inside is cooled more efficiently and uniformly.
[0035]
At this time, a heat insulating member of an appropriate thickness is provided on the member 40 side of the central passage 35a and the side passage 35b, and a part of the cold air passing through the central passage 35a and the side passage 35b is thermally conducted, The amount of heat conduction from the member 40 discharged into the refrigerator compartment 6 may be adjusted.
[0036]
Note that a part of the cold heat generated by the cold air passing through the cold air passage is released into the storage chamber via the member. This means that a part of the cold air passing through the cold air passage absorbs heat from the member to cool the member, and the member cools the member. It means that the storage chamber is cooled by absorbing heat.
[0037]
In FIG. 2, the storage container 23 is detachably attached to an upper portion of an attachment frame 47 provided on the heat insulating door 20. A roller 48 is rotatably attached to the lower rear portion of the attachment frame 47, and a rotatable roller (not shown) and a rail provided on both sides of the inner box 3 so as to face both side walls. On the (not shown), the attachment frame 47 is attached to be movable in the horizontal direction. Therefore, the heat insulation door 20, the mounting frame 47, and the storage container 23 can move integrally, and the heat insulation door 20 is a door for the upper freezer compartment 8a that can be opened and closed. Reference numeral 23a denotes a shovel-like container for scooping out ice placed in the front of the storage container 23.
[0038]
Further, the ice making unit 49 is provided on the upper left side in the upper freezer compartment 8a. The ice making section 49 includes an ice tray 49a, a dish driving section 49b, a water supply pipe 49c, a detection lever 49d, and a mounting frame 50. In addition, the ice tray 49 a is connected to a tray driving portion 49 b provided on the mounting frame 50, and the ice tray 49 a is rotatably mounted on the mounting frame 50. The water supply pipe 49c is provided above the rear part of the ice tray 49a so that water can be poured into the ice tray 49a.
[0039]
An ice storage part 51 is provided below the ice making part 49, and an attachment part 51a of the ice storage part 51 is provided on the upper surface of a guide part 50a, which will be described later, provided outside both side surfaces of the attachment frame 50 in the left-right direction. The ice storage part 51 is attached and can move in the front-rear direction.
[0040]
Then, the power cord (not shown) of the refrigerator 1 main body is connected to the power source, and a water supply tank (not shown) for ice making filled with water for the first time is provided in the water supply tank provided on the lower left side of the refrigerator compartment 6. When set in the unit, water is sent from the water supply tank by a water supply pump (not shown), and an appropriate amount of the water is poured into the ice tray 49a through the water supply pipe 49c in the upper freezing chamber 8a.
[0041]
Thereafter, the upper freezer compartment 8a is cooled, so that the water in the ice tray 49a is frozen and becomes ice. Then, when a thermistor (not shown) provided on the lower outer surface of the ice tray 49a continuously senses a temperature equal to or lower than a predetermined temperature (for example, −20 ° C.) for a predetermined time (for example: 15 minutes), ice making The dish 49a is rotated by a dish driving unit 49b. Thereafter, the ice tray 49a is rotated by the tray driving section 49b until the rear side of the ice tray 49a hits a projection (not shown) of the mounting frame 50 and the ice tray 49a is twisted, and the ice inside the ice tray 49a is deiced. And drop it into the ice storage section 51. Then, the ice tray 49a returns to its original position even if it is inverted.
[0042]
Thereafter, the same ice making operation is repeated until an appropriate amount of water is poured into the ice tray 49a again by a water supply pump (not shown) and a predetermined amount of ice is stored in the ice storage unit 51. Whether or not a predetermined amount of ice has been stored in the ice storage unit 51 is detected by the detection lever 49d, and when a predetermined amount of ice is stored in the ice storage unit 51, a water supply pump (not shown) is detected by the detection lever 49d. The water is not supplied and no further ice is made. When the ice in the ice storage unit 51 is used and detected by the detection lever 49d and decreases below a predetermined amount, the same ice making operation is repeated again to automatically add ice.
[0043]
In FIG. 3, the heat insulating door 20 is pulled out forward, and protrusions (not shown) protruding downward provided on the upper portion of the mounting frame 47 are rotatable rollers (not shown) provided on both side walls of the inner box 3. ), The heat insulating door 20 is not drawn horizontally from a predetermined position forward as shown in the figure. The upper portion of the mounting frame 47 is bent in an L shape, and the bent portions are on the rollers provided on both side walls of the inner box 3.
[0044]
Further, even if the storage container 23 moves as the heat insulating door 20 is pulled out, the ice storage unit 51 moves so as to move to a predetermined movement amount of the storage container 23 and stays in the store. The rear wall surface of the nearby storage container 23 is cut away.
[0045]
Then, when the heat insulating door 20 is pulled forward by a predetermined distance (for example: 290 mm), it protrudes upward at the lower rear of the storage container 23 to the protrusion 51b provided to protrude downward at the lower front of the ice storage part 51. The provided protrusion 23a hits, and the ice storage part 51 also moves forward in the same direction as the heat insulating door 20 by a predetermined distance (for example: 100 mm) at the same time as the heat insulating door 20 is pulled out.
[0046]
The mounting portion 51a of the ice storage portion 51 is guided by the guide portion 50a so as to move in the same direction as the heat insulating door 20 on the guide portion 50a of the mounting frame 50. The movement state of the part 51 is stabilized, the load required for movement is small, and the operability is improved.
[0047]
In addition, the guide portion 50a uses another member (for example: the side wall of the inner box 3 is used. However, in this case, the attachment portion 51a needs to be inserted from the outside in the left-right direction and can be attached) or independent. It may be formed of a simple substance.
[0048]
Therefore, as the heat insulating door 20 is pulled out, the handle portion 51c provided in front of the ice storage portion 51 comes out to a position where it can be easily gripped with a light force. At this time, most of the ice storage part 51 is in the warehouse, and every time the heat insulating door 20 is opened, the ice storage part 51 does not go out of the warehouse so much, the possibility that the stored ice melts is small, and energy loss occurs. In addition, there is little possibility that dust and dust from outside the warehouse will enter the ice storage unit 51, and the stored ice will not be contaminated.
[0049]
Further, when the heat insulating door 20 is opened, the ice storage unit 51 moves to a handle 51c in front of the ice storage unit 51 until the finger is put on it, so that the ice storage unit 51 can be easily pulled forward.
[0050]
Even when the handle 51c is not provided, the ice storage unit 51 is moved to the place where the finger is applied if the finger can be applied to a part of the front of the ice storage unit 51. If this is done, the ice storage part 51 can be pulled out and the inner surface of the ice storage part is touched by a finger, but there are concerns about hygiene.
[0051]
Further, with the drawer of the heat insulating door 20, even if the ice storage part 51 does not move and stays in the cabinet, a space is provided in the handle part or a part of the front of the ice storage part 51 so that a finger can be put on it. If there is, since the ice storage part 51 does not go out of the warehouse every time the heat insulating door 20 is opened, it is possible to further reduce the possibility that dust and garbage from the outside enter the ice storage part 51, The stored ice is less likely to melt and the energy loss is less.
[0052]
In addition, the above is attached to the drawer type door, but even if it is a rotary type door with one side serving as a rotation axis, the ice storage part is moved by a predetermined distance as the door is opened. If a push spring is provided at the rear of the ice storage part and a moving means is provided, the number of parts increases and this is disadvantageous in terms of cost, but the same effect as described above can be obtained.
[0053]
In the state as shown in FIG. 3, the stored item stored in the storage container 23 other than the position where the ice storage unit 51 is located can be taken out because the storage container 23 is pulled out of the storage. It has become.
[0054]
In FIG. 4, when the finger is placed on the handle 51 c of the ice storage unit 51 from the state shown in FIG. 3 and pulled out to the front, the attachment part 51 a of the ice storage part 51 passes over the upper surface of the guide part 50 a provided on the attachment frame 50. Thereafter, the ice storage part 51 is further pulled out until the riding part 51b of the ice storage part 51 rides on the support part 23b of the storage container 23 and the handle part 51c of the ice storage part 51 hits the inner surface of the front part of the storage container 23. .
[0055]
In this figure, a protrusion 51f (not shown), which will be described later, is provided on a part of the riding part 51b, and the other part of the riding part 51b is separated from the support part 23b. The support portion 23b of the storage container 23 and the protrusion 51f, which are the shadow of the ice storage portion 51, are omitted because the drawing becomes complicated.
[0056]
Further, the ice storage unit 51 can be pulled out sufficiently forward, and the ice stored in the ice storage unit 51 can be easily taken out. And since the front lower part of the ice storage part 51 is made into the inclined surface 51d, the ice storage part 51 can be taken out and used from the storage container 23, without pulling out the heat insulation door 20 more than necessary.
[0057]
Further, after the ice is taken out from the ice storage part 51, when the heat insulating door 20 is pushed and the door is closed, the attachment part 51 a of the ice storage part 51 rides again on the upper surface of the guide part 50 a provided on the attachment frame 50. The front part of the guide part 50a has an inclined surface 50b that is lower than the rear end part of the attachment part 51a of the ice storage part 51 on the container 23.
[0058]
When the heat insulating door 20 is closed by the inclined surface 50b, the front surface of the handle portion 51c of the ice storage portion 51 is pushed by the storage container 23, and the heat insulation door 20, the storage container 23, and the ice storage portion 51 are moved backward together. In addition, the mounting portion 51a of the ice storage portion 51 rides on the guide portion 50a provided on the mounting frame 50 without being caught, and the storage container 23 and the ice storage portion 51 are placed in the original positions in the cabinet. The mounting portion 51a is provided with a protrusion 51e, which will be described later, in a substantially arc shape.
[0059]
Further, the rear of the guide portion 50a provided in the mounting frame 50 has an inclined surface that descends downward as it goes rearward. When the ice storage portion 51 is stored in the cabinet, it is on the inclined surface behind the guide portion 50a. When the mounting portion 51a comes, the ice storage portion 51 slides backward due to its own weight, and the ice storage portion 51 is automatically stored.
[0060]
In FIG. 5, an ice storage unit 51 is provided below the ice making unit 49, and the attachment unit 51 a of the ice storage unit 51 is arranged on the upper surface of the guide unit 50 a provided on both outer sides of the attachment frame 50 in the left-right direction. It is mounted so as to be movable in the direction. And the protrusion 51e is provided in the front and back two places (a total of four places on both sides) so that the protrusion 51e may run on the upper surface of the guide part 50a on the lower surface of the mounting part 51a.
[0061]
When the ice storage unit 51 is pulled out to the front, the protrusion 51f of the riding portion 51b of the ice storage unit 51 is moved into the storage container 23 after the attachment unit 51a of the ice storage unit 51 passes over the upper surface of the guide unit 50a provided on the attachment frame 50. The ice storage part 51 is further pulled out forward until the ice storage part 51 hits the inner surface of the front part of the storage container 23. Therefore, the amount of movement of the ice storage unit 51 can be increased, and the ice stored in the ice storage unit 51 can be easily taken out.
[0062]
In addition, this figure is a figure when the storage container 23 and the ice storage part 51 are accommodated in the store | warehouse | chamber, and parts other than the part which supports the ice storage part 51 (part where the guide part 50a supports the protrusion 51e) are ice storage parts. It is far from 51.
[0063]
For this reason, after the storage container 23 or the ice storage unit 51 is pulled out of the storage room, it touches the outside air to cause dew condensation or touch with a wet hand, and moisture adheres to the storage container 23 or the ice storage unit 51. Even if the storage container 23 or the ice storage unit 51 is stored in the storage again and the moisture such as the condensed water freezes, the portions other than the portion supporting the ice storage unit 51 are separated from the ice storage unit 51 by a predetermined distance. Therefore, they do not freeze and stick together.
[0064]
Note that the predetermined distance away from the ice storage unit 51 may be 0.5 mm or more when the moisture adhesion state is assumed to be a minute mist, and the moisture adhesion is assumed to be a water droplet. In this case, 2 mm or more is required. Preferably, the thickness is set to 3 mm or more in consideration of the movable part.
[0065]
Further, since the portion supporting the protrusion 51e of the guide portion 50a is a small area, even if the portion freezes and adheres, the freeze fixed portion can be pulled apart with a small force, and the ice storage portion 51 can be easily moved forward. Thus, the heat-insulating door 20 with the ice storage part 51 and the ice storage part 51 itself can be easily pulled out.
[0066]
Since the protrusion 51e has a substantially arc shape when viewed from the side, it is in line contact with the guide portion 50a (such as wear after moving back and forth many times in a microscopic manner). Is a very narrow surface contact), and it has a generally arc shape that is easy to ride in the forward and backward direction, and even if that part freezes, the freezing adhesion force of that part is very small It becomes.
[0067]
When the protrusion 51e is inclined downward as it goes to the center in the left-right direction, the surface facing the protrusion 51e of the guide portion 50a is equal to or less than the inclination in the same direction at an angle smaller than the inclination ( (Including horizontal and reverse inclination), the projection 51e and the guide portion 50a are in point contact (in practice, very narrow surface contact), and the freezing and fixing force at that portion is very small.
[0068]
In addition, the protrusion 51e having the inclination is not easily forced on the mold structure when formed by injection molding. In addition, a protrusion 51f is provided on the riding-up portion 51b for the same purpose.
[0069]
A part of the cool air discharged from the passage leading to the pressure chamber 34 above the cool air passage 29 in FIG. 1 flows through the opening 50c at least on the protrusion 51e and the guide portion 50a around the protrusion 51e. ing.
[0070]
For this reason, when moisture is generated around the projection 51e or the surrounding guide portion 50a due to condensation or the like, the moisture is evaporated by freezing the portion or the periphery thereof, and is frozen with condensed water or the like. Since the ice storage unit 51 can be moved with less force because it does not stick, the heat insulation door 20 with the ice storage unit 51 and the operation of pulling out the ice storage unit 51 become easier.
[0071]
In FIG. 6, the support portion 23 b of the storage container 23 and the attachment portion 51 a of the ice storage portion 51 have inclined surfaces that become lower toward the outside so as to flow outward when water droplets accumulate on the upper surface.
[0072]
Also, the rider 51b and the storage ice The connection part 51h and the guide part 50a that connect the box part 51g of the part 51 have an inclined surface that becomes lower as it goes inward, and a drainage hole 50d is provided in the vicinity of the side wall of the mounting frame 50 in the guide part 50a. Yes. Therefore, when water droplets accumulate on the upper surfaces of the connecting portion 51h and the guide portion 50a, the water droplets flow inward, and the water droplets flow downward from the drain holes 50d in the guide portion 50a.
[0073]
Therefore, when the ice storage part 51 is stored in the cabinet, water drops do not remain on the guide part 50a, the attachment part 51a, the connection part 51h, and the support part 23b, so the ice storage part 51 is not frozen and fixed. Further, the ice storage unit 51 can be moved with less force, and the heat-insulating door 20 with the ice storage unit 51 and the drawer operation of the ice storage unit 51 are further facilitated.
[0074]
In the above description, if at least the portion of the guide portion 50a that supports the protrusion 51e is inclined, the ice storage portion 51 is prevented from adhering due to freezing of water droplets at that portion, and the heat insulating door 20 can be pulled out more easily. Become.
[0075]
Further, in this figure, the guide portion 50a around the protrusion 51e is substantially horizontal, and the other guide portions 50a have inclined surfaces that become lower toward the inner side, so that the protrusion 51e is less likely to be displaced outward. ing. In addition, if the protrusion 51e and the surface of the guide portion 50a facing the protrusion 51e are similarly inclined, water droplets do not remain on that portion, and the risk of freezing is further eliminated.
[0076]
Although the above is about the inclination in the left-right direction, the same effect can be obtained by providing an inclination in the front-rear direction (for example: an inclined surface behind the guide portion 50a).
[0077]
Furthermore, water repellent means (for example: using a silicone-kneaded resin material, silicone film sticking, application, etc.) is applied to at least one of the protrusion 51e and the surrounding guide portion 50a when stored in the cabinet. Since the water droplets do not easily remain in that portion, the ice storage portion 51 is less likely to freeze and adhere, and the ice storage portion 51 can be moved with a smaller force. The drawer operation of the ice storage unit 51 becomes easier.
[0078]
In addition, the above is attached to an ice making unit and an ice storage unit with an automatic ice making device, but it is obvious that the same effect can be obtained also in a manual ice making device.
[0079]
In the above description, the left-right direction means the left-right direction when the refrigerator is viewed from the front, and the front-rear direction means the front-rear direction when the refrigerator is viewed from the front.
[0080]
【The invention's effect】
According to the present invention, every time the door is opened, the ice storage part does not go out of the warehouse, so that the possibility of dust and dust from outside the house entering the ice storage part can be reduced.
[0081]
Also, according to the present invention, when the door is opened, the ice storage part moves forward, so that the ice storage part can be easily taken out, and every time the door is opened, most of the ice storage part does not go out of the warehouse, It is possible to reduce the possibility that dust and garbage from outside the warehouse enter the ice storage unit.
[0082]
And according to the present invention, when the door is opened, When the storage container moves forward, the contact part of the storage container comes into contact with the contact part of the ice storage part from behind. Since the ice storage unit moves forward in the same direction in conjunction with the movement of the drawer door, the ice storage unit is easy to move, and the ice storage unit is easy to take out and every time the door is opened, most of the ice storage unit Therefore, it is possible to reduce the possibility that dust and garbage from outside the container will enter the ice storage unit.
[0088]
And, according to the present invention, when the ice storage part is stored in the cabinet, Guide part is mounting part Since at least a part other than the part supporting the ice is separated from the ice storage part, the ice storage part can be moved with less force without being frozen by condensed water or the like and freezing and fixing. The drawer operation of the door with the ice and the ice storage part becomes easier.
[0089]
Further, according to the present invention, when the ice storage part is taken in or out, or when the ice storage part is stored in the cabinet, Of the guide part, the attachment part, the connecting part that connects the riding part of the ice storage part and the box part of the ice storage part, and the support part of the storage container Since at least a part has an inclined portion for removing water, moisture generated by condensation is excluded from the inclined portion, and the frozen portion is not frozen by condensed water or the like, and is fixed with freezing. The ice storage section can be moved, and the door with the ice storage section and the operation of pulling out the ice storage section are further facilitated.
[0091]
Further, according to the present invention, at least when the ice storage part is stored in the storage, The guide part supports the protrusion provided on the lower surface of the mounting part. Part Around In order to cool the air, the water generated by condensation etc. can be applied to the water without causing the water to evaporate and freeze in the condensed water. The ice storage part can be moved, and the door with the ice storage part and the drawer operation of the ice storage part become easier.
[Brief description of the drawings]
FIG. 1 is a side sectional view showing a refrigerator according to the present invention.
FIG. 2 is an enlarged view of a main part in the vicinity of an ice storage part of the refrigerator in FIG.
3 is an enlarged view of a main part when the heat insulating door near the ice storage part of FIG. 2 is opened.
4 is an enlarged view of a main part when the ice storage part is pulled out in FIG. 3. FIG.
5 is a cross-sectional view of a main part near the ice storage part of FIG.
FIG. 6 is an enlarged view of the vicinity of the mounting portion of the ice storage portion in the refrigerator of the present invention.
[Explanation of symbols]
8 Freezer room
8a Upper freezer room (freezer room)
20 Insulated door (door)
23 Storage container
49 Ice making
50a Guide part
51 Ice storage
51a Mounting part
51c handle part

Claims (7)

An ice making part is provided in a part of the freezing room, an ice storage part is provided below the ice making part, a drawer door is provided in a front part of the freezing room including the ice making part and the ice storage part,
A storage container is provided so as to cover at least a part of the ice storage part,
The storage container moves integrally with the movement of the door,
A guide part is provided outside the side wall of the ice making part,
An attachment part provided inside the ice storage part is attached to the guide part so as to be movable in the front-rear direction,
A contact portion is provided in the storage container,
A contact portion is provided on the storage container side of the ice storage portion,
When the door is opened, the storage container moves forward so that the contact portion of the storage container comes into contact with the contact portion of the ice storage portion from the rear , thereby interlocking with the movement of the drawer door. The ice storage part moves forward to a predetermined position, and at least a part of the box part of the ice storage part where the ice is stored remains in the refrigerator. The ice making part is provided with walls on the front, rear, left and right, and an ice making tray for rotating and deicing is surrounded by the wall, and is attached rotatably.
The refrigerator according to claim 1, wherein a rotating shaft of the ice tray is attached to any one of the walls. -Out the door open until the ice storage unit a predetermined position by the lower front of the projection which protrudes above the lower rear of the storage container to the protrusion that protrudes downward to contact the ice storage unit 3. The method according to claim 1, wherein at least the protrusion on the inner surface of the bottom portion of the storage container supports the lower side of the ice storage part when the ice storage part is pulled forward after moving forward. 4. refrigerator. A handle portion is provided above the outer front surface of the ice storage portion,
When the door is closed, a storage portion for storing the shovel-like container is provided in a space formed between the front inner surface of the storage container and the front outer surface of the ice storage portion and below the handle portion. The refrigerator in any one of Claims 1-3 characterized by the above-mentioned. The at least one part other than the part in which the said guide part supports the said attachment part when the said ice storage part is accommodated in the store | warehouse | chamber is separated from the said ice storage part, Any one of Claim 1 to 4 characterized by the above-mentioned. The refrigerator according to crab. When the ice storage part is taken in or out, or when the ice storage part is stored in a warehouse, the guide part, the attachment part, the connection part connecting the riding part of the ice storage part and the box part of the ice storage part, the storage The refrigerator according to any one of claims 1 to 5, wherein at least a part of the support portion of the container has an inclined portion for removing water. The ice storage part when housed in the refrigerator, and a peripheral portion in which at least the guide portion underpinning the projections provided on the lower surface of the mounting portion, according to claim 1, characterized in that the cool air hits The refrigerator in any one of Claim 6.

Images