CN109099631B

CN109099631B - Refrigerator with a door

Info

Publication number: CN109099631B
Application number: CN201810120318.1A
Authority: CN
Inventors: 川野敬太; 筱原健太郎
Original assignee: Toshiba Lifestyle Products and Services Corp
Current assignee: Toshiba Lifestyle Products and Services Corp
Priority date: 2017-06-21
Filing date: 2018-02-07
Publication date: 2021-02-02
Anticipated expiration: 2038-02-07
Also published as: CN109099631A; JP2019007646A; JP6993797B2

Abstract

The invention provides a refrigerator which can prevent cold air supplied into an ice making chamber from a cold air supply port from directly blowing to an ice making chamber door or an isolation part and can prevent condensation from occurring on the ice making chamber door or the isolation part. The refrigerator related to the invention comprises: an ice making chamber; a cold air supply port for supplying cold air into the ice making chamber; an ice box housed in the ice making chamber; a non-ice storage unit provided in a portion of the ice box that stores substances other than ice; and an opening portion provided in the non-ice housing portion and opened toward a rear side of the ice making chamber.

Description

Refrigerator with a door

Technical Field

The present invention relates to a refrigerator.

Background

For example, patent document 1 discloses a refrigerator including an ice making chamber, the refrigerator including: an ice box provided in the ice making chamber, an ice making chamber door for opening and closing the ice making chamber, and a partition for partitioning the ice making chamber and a storage compartment below the ice making chamber.

Patent document

Patent document 1: japanese laid-open patent publication No. 2012-078078

Disclosure of Invention

In a refrigerator having an ice making chamber, there is a possibility that cold air supplied into the ice making chamber through a cold air supply port may directly blow to an ice making chamber door, a partition, or the like, and dew condensation may occur on the cooled door or partition.

The present embodiment provides a refrigerator capable of preventing cold air supplied into an ice making chamber from a cold air supply port from directly blowing to an ice making chamber door or an isolation portion, and preventing dew condensation from occurring on the ice making chamber door or the isolation portion.

A refrigerator according to claim 1 of the present invention includes: an ice making chamber, a cold air supply opening, an ice box, a non-ice storage section, and an opening section. The cold air supply port is used for supplying cold air into the ice making chamber. An ice box is received in the ice making chamber. The non-ice storage part is provided with: a part of the ice box for storing substances other than ice. The opening is provided in the non-ice housing section and opens toward the back side of the ice making chamber.

According to the refrigerator of the present embodiment, the ice box stored in the ice making chamber includes, in the non-ice storage portion: an opening part opened toward the back side of the ice making chamber. According to this configuration, the cold air supplied to the ice box easily flows out from the opening portion toward the rear side of the ice making chamber. Therefore, the cold air supplied from the cold air supply port into the ice making chamber can be prevented from directly blowing to the ice making chamber door or the partition portion, and the dew condensation can be prevented from occurring in the ice making chamber door or the partition portion.

The refrigerator according to claim 2 of the present invention is the refrigerator according to claim 1, wherein the non-ice storage portion includes an inclined portion, and the opening portion is provided in the inclined portion.

The refrigerator according to claim 3 of the present invention is the refrigerator according to claim 1 or 2, further comprising: an ice making chamber door opening and closing the ice making chamber; and a partition portion that partitions the ice making chamber and a storage compartment below the ice making chamber, the opening portion facing: and is not opened in the direction of both the ice making chamber door and the partition.

A refrigerator according to claim 4 of the present invention is the refrigerator according to claim 3, further comprising a bottom plate that constitutes a bottom portion of the ice making compartment, wherein the opening portion opens toward the bottom plate.

A refrigerator according to claim 5 of the present invention is the refrigerator according to claim 4, wherein the bottom plate is provided at a position lower than the partition portion, and a cold air flow path through which cold air flows is formed between the bottom plate and a bottom surface of the ice bank.

A refrigerator according to claim 6 of the present invention is the refrigerator according to any one of claims 1 to 5, further comprising a reinforcing rib provided on the ice case at a position opposite to the inside of the ice making compartment with respect to the opening.

The refrigerator according to claim 7 of the present invention is the refrigerator according to any one of claims 1 to 6, further comprising a guide portion for guiding the cold air supplied from the cold air supply port toward the opening portion.

A refrigerator according to claim 8 of the present invention is the refrigerator according to any one of claims 1 to 7, further comprising an ice scoop storage section for storing an ice scoop which is a substance other than ice as the non-ice storage section, wherein the ice scoop storage section has a region in which the opening is provided, the region being longer than a length of the ice scoop.

A refrigerator according to claim 9 of the present invention is the refrigerator according to any one of claims 1 to 8, wherein a wall portion on a side opposite to a rear side of the ice making chamber is closed in the ice box and is higher than the wall portion on the rear side of the ice making chamber.

Drawings

Fig. 1 is a front view schematically showing a configuration example of a refrigerator according to the present embodiment.

Fig. 2 is a longitudinal sectional side view schematically showing an example of the configuration of the ice making compartment and a peripheral portion thereof.

Fig. 3 is a front view in longitudinal section of an ice bin schematically showing an example of the configuration of the inclined portion and its peripheral portion.

Description of the symbols:

1 … refrigerator, 5 … ice making chamber, 5a … ice making chamber door, 10 … partition, 11 … bottom plate, 20 … cold air supply port, 30 … ice box, 31b … front wall portion (wall portion on the opposite side to the inner side of ice making chamber), 31c … rear wall portion (wall portion on the inner side of ice making chamber), 32 … ice scoop housing portion (non-ice housing portion), 32a … inclined portion, 32b … bulging portion (induction portion), 32c … opening portion, 34 … rib, 40 … cold air flow path, 100 … ice scoop.

Detailed Description

Hereinafter, an embodiment of a refrigerator will be described with reference to the drawings. The refrigerator 1 illustrated in fig. 1 is configured by a cabinet having heat insulation properties, and includes a refrigerating chamber 3 and a vegetable chamber 4 in this order from the top, an ice making chamber 5 and an upper freezing chamber 6 arranged side by side in the left-right direction below the vegetable chamber 4, and a lower freezing chamber 7 provided at the lowermost portion. Among them, refrigerating room 3 and vegetable room 4 are storage rooms in a refrigerating temperature range, and ice making room 5, upper freezing room 6 and lower freezing room 7 are storage rooms in a freezing temperature range. The refrigerator 1 includes a well-known refrigeration cycle, not shown, and cool air generated by the refrigeration cycle is supplied into each storage compartment by an air blowing action of a fan, not shown.

These refrigerating chamber 3, vegetable chamber 4, ice making chamber 5, upper freezing chamber 6, and lower freezing chamber 7 are, as is well known: a storage compartment having a front surface opening that is opened and closed by a door. The front opening of the refrigerating chamber 3 is opened and closed by a left door 3a and a right door 3b which are arranged side by side in the left-right direction, the left door 3a being pivoted about a left end side and provided with an operation panel 8 on which a user touches and operates, and the right door 3b being pivoted about a right end side. The front surface openings of vegetable compartment 4, ice making compartment 5, upper freezer compartment 6, and lower freezer compartment 7 are opened and closed by vegetable compartment door 4a, ice making compartment door 5a, upper freezer compartment door 6a, and lower freezer compartment door 7a, which are push-pull type.

As illustrated in fig. 2, the ice making compartment 5 and the lower freezing compartment 7 are partitioned by a partition 10 and a bottom plate 11. In this case, the partition 10 extends in the left-right direction of the refrigerator 1 and partitions the front between the ice making compartment 5 and the lower freezing compartment 7. The bottom plate 11 is provided on the rear side of the partition 10. The bottom plate 11 partitions a substantially entire area between the ice making compartment 5 and the lower freezing compartment 7 except for the partition 10. The bottom plate 11 has a plate thickness smaller than the vertical dimension of the spacer 10. Further, the bottom plate 11 is attached to: lower than the upper surface of the spacer 10.

Provided in the ice making chamber 5 are: and a cold air supply port 20 for supplying cold air into the ice making chamber 5. The cold air supply port 20 is provided at an upper portion of a rear wall portion of the ice making compartment 5 in this case. The cold air supply opening 20 is opened from the upper portion of the rear wall portion of the ice making compartment 5 toward the front side, i.e., the ice making compartment door 5 a. Thus, the cold air F supplied from the cold air supply port 20 mainly flows from the front end of the cold air supply port 20 toward the front side, i.e., the ice-making chamber door 5a side.

Further, an ice bank 30 is housed inside the ice making chamber 5. The ice bank 30 is detachably mounted on the rear surface of a push-pull type ice making chamber door 5a that opens and closes the ice making chamber 5, and thus the ice bank 30 is moved in and out of the ice making chamber 5 as the ice making chamber door 5a is opened and closed. The ice bank 30 stores ice generated by an ice maker, not shown, provided at an upper portion of the ice making chamber 5.

Next, a configuration example of the ice bank 30 will be described in detail. Namely, the ice bank 30 includes: an ice storage unit 31 for storing ice, and an ice shovel storage unit 32 for storing the ice shovel 100 illustrated in fig. 3. The ice storage part 31 occupies most of the ice bank 30, and in this case, the ice storage part 31 is provided with: the rear side of the ice box 30 is the rear side of the ice making chamber 5 where the cold air supply port 20 is provided.

The ice scoop storage section 32 occupies a portion of the ice bank 30 other than the ice storage section 31, and in this case, the ice scoop storage section 32 is provided on the front side of the ice bank 30, that is, on the ice making chamber door 5a side. A partition wall 33 extending in the vertical direction is provided inside the ice box 30, and the inside of the ice box 30 is partitioned into an ice storage portion 31 and an ice scoop storage portion 32 by the partition wall 33. The ice scoop storage section 32 is an example of a non-ice storage section, and in this case, is provided in a section for storing the ice scoop 100 illustrated in fig. 3. The ice scoop 100 is an example of a member other than ice.

The bottom of the ice receiving portion 31 is: a flat surface extending entirely in the horizontal direction. This ensures a large space in the ice storage 31, and more ice can be stored. Further, at the rear of the ice storage 31 are provided: a bulging portion 31a bulging toward the front side, i.e., the ice-making chamber door 5a side.

In contrast, the bottom of the ice scoop storage section 32 is configured to: has an inclined portion 32a and a bulging portion 32b, rather than a flat surface extending entirely in the horizontal direction. The inclined portion 32a is provided at the rear side of the bottom of the shovel housing portion 32, that is, at the rear side of the ice making chamber 5, and is inclined such that the upper end portion thereof is inclined obliquely downward toward the rear side of the ice making chamber 5 from the front side toward the rear side. The inclined portion 32a is inclined so as to rise from a lower end portion, which is a base end portion, toward an upper end portion, which is a tip end portion. The normal line direction of the inclined portion 32a is directed toward the bottom plate 11, which is the rear side of the partition 10, rather than toward the ice making chamber door 5a and the partition 10.

The inclined portion 32a is provided with an opening 32c penetrating the inclined portion 32 a. The opening 32c is provided with: the inclined portion 32a provided on the rear side of the bottom portion of the ice scoop housing portion 32 is therefore directed to the rear side, i.e., the rear side of the ice making chamber 5, and not to the front side, i.e., the ice making chamber door 5a side or the lower side, i.e., the partition portion 10 side, and more specifically, the opening portion 32c is opened toward the bottom plate 11 provided on the rear side of the ice making chamber 5 with respect to the partition portion 10. Since the opening 32c is provided in the inclined portion 32a facing the bottom plate 11 in the normal direction, the opening opens toward the bottom plate 11 located on the rear side of the partition 10.

The bulging portion 32b bulges toward the rear side, i.e., the rear side of the ice making compartment 5. The upper part of the bulging portion 32b is: an inclined surface inclined so as to descend from the front side to the rear side, and configured such that: an inclined portion 32a and an opening portion 32c are provided along the end of the inclined surface. As will be described in detail later, the bulging portion 32b functions as a guide portion for guiding the cold air F supplied from the cold air supply port 20 toward the opening portion 32 c.

The ice bin 30 is provided with a rib 34. The rib 34 protrudes downward from the bottom of the ice scoop storage section 32. Further, the rib 34 is provided with: the ice making chamber door 5a is located on the front side of the inclined portion 32a having the opening portion 32c, that is, on the opposite side of the cold air supply port 20. The lower end portion, which is the tip end portion of the bead 34, faces the upper surface of the spacer 10 with a predetermined gap from above. The size of the predetermined gap may be set by appropriate modification.

The ice box 30 has a front wall 31b on the front side, i.e., on the ice making chamber door 5a side, and a rear wall 31c on the rear side, i.e., on the rear side of the ice making chamber 5 where the cold air supply opening 20 is provided. The front wall portion 31b is configured to: the entire structure is closed, and the opening penetrating the front wall 31b is not provided. The rear wall portion 31c is configured to: although substantially the entire part is closed, a slit 31d extending in the up-down direction is provided in a part thereof. The slits 31d are: a slit for passing an ice-detecting lever of an ice-making machine not shown. The left and right wall portions of the ice bin 30 are: has a shape with a step higher at the front side and lower at the rear side, and is configured to be closed as a whole. In the ice bank 30, a dimension in the vertical direction of the front wall portion 31b, that is, a height dimension from the bottom of the ice bank 30 to the upper end of the front wall portion 31b is higher than a dimension in the vertical direction of the rear wall portion 31c, that is, a height dimension from the bottom of the ice bank 30 to the upper end of the rear wall portion 31 c.

As described above, the bottom plate 11 is attached to a position lower than the upper surface of the spacer 10. Therefore, in a state where the ice bank 30 is accommodated in the ice making compartment 5, a space is formed between the bottom surface of the ice bank 30 and the bottom plate 11. As will be described later in detail, this space functions as a cold air flow path 40 through which cold air F flows below the ice bank 30.

As illustrated in fig. 3, the inclined portion 32a of the ice scoop housing portion 32 is provided with: in the opening forming region R, in the present embodiment, a plurality of openings 32c are provided in the opening forming region R. In this case, the plurality of openings 32c are linearly arranged along the left-right direction of the refrigerator 1. If the opening forming region R is a region including all of the plurality of openings 32c, the size thereof can be set by appropriately changing the region. In the present embodiment, the opening forming region R is defined as a region obtained by removing the offset Ra of a predetermined length from the openings 32c at both ends in the left-right direction. The value of the offset Ra may be set by appropriate modification. The number of the openings 32c may be set by changing as appropriate, and may be, for example, 2 or more, or 1. The openings 32c may be provided at equal intervals or at unequal intervals. The openings 32c may be arranged in a plurality of rows, for example, in a plurality of rows such as 2 rows and 3 rows above and below. The opening shape of the opening 32c may be appropriately changed and set, and various shapes such as a circle, an ellipse, a slit, and a polygon may be used.

Further, a width D1 of the opening forming region R in which the opening 32c is provided, that is, a dimension D1 along the left-right direction of the refrigerator 1 is longer than a length D2 of the ice scoop 100. The length D2 of the ice scoop 100 is the length of the ice scoop 100 in the length direction, specifically: the length from the base end of the grip 100a gripped by the user to the tip end of the scooping portion 100b scooping ice.

Next, the flow of the cold air F in the ice making compartment 5 of the refrigerator 1 will be described. That is, as illustrated in fig. 2, the cold air F blown out from the cold air supply port 20 flows toward the front side, that is, the side of the ice making chamber door 5a, in the ice making chamber 5. The cold air F is guided downward by the front wall portion 31b of the ice box 30 before reaching the back surface of the ice making chamber door 5a, and flows into the ice scoop storage portion 32. The cold air F guided into the ice scoop storage section 32 flows out from the opening 32c at the bottom of the ice scoop storage section 32 to the lower side of the ice box 30. At this time, a part of the cold air F guided into the ice scoop storage portion 32 is guided toward the opening portion 32c by the inclination of the bulging portion 32 b. That is, the bulging portion 32b guides the cold air F supplied from the cold air supply port 20 toward the opening portion 32c in the ice scoop housing portion 32.

Thus, the cold air F supplied from the cold air supply port 20 can easily flow toward the opening 32c through the ice scoop storage portion 32. The cold air F flowing out of the opening 32c flows through the cold air flow path 40 below the ice box 30 toward the rear side of the ice making compartment 5. At this time, the cold air F flowing out of the opening 32c is blocked by the rib 34, and thus is less likely to flow to the front side of the opening 32c, specifically, the ice making chamber door 5a side and the partition 10 side.

According to the refrigerator 1 of the present embodiment, the ice box 30 stored in the ice making chamber 5 includes, in the ice shovel storage unit 32 provided in a portion where the ice shovel 100 is stored: and an opening 32c that opens toward the rear side of ice making compartment 5. With this configuration, the cold air F supplied to the ice box 30 easily flows out through the opening 32c and flows toward the rear side of the ice making compartment 5. Therefore, the cold air F supplied from the cold air supply port 20 into the ice making compartment 5 can be prevented from directly blowing to the ice making compartment door 5a or the partition portion 10, and dew condensation can be prevented from occurring at the ice making compartment door 5a or the partition portion 10.

Further, according to the refrigerator 1, the ice scoop storage section 32 has: an opening 32c, through which the cold air F supplied to the ice bank 30 flows out, is provided in the inclined portion 32a, with the normal direction not facing the inclined portion 32a on the ice making chamber door 5a side or the partition portion 10 side. According to this configuration, the cold air F flowing out of the opening portion 32c can be further prevented from heading toward the ice making chamber door 5a side or the partition portion 10 side, and dew condensation can be further prevented from occurring at the ice making chamber door 5a or the partition portion 10.

In addition, according to the refrigerator 1, the normal direction of the inclined portion 32a does not face the ice making chamber door 5a side or the partition portion 10 side, and therefore, the opening direction of the opening portion 32c provided to the inclined portion 32a can be made to be: not toward both the ice making chamber door 5a side and the partition 10 side. This can further prevent the cold air F flowing out of the opening portion 32c from heading toward the ice making chamber door 5a or the partition portion 10, and can further prevent dew condensation from occurring on the ice making chamber door 5a or the partition portion 10.

In addition, according to the refrigerator 1, the opening portion 32c is opened toward the bottom plate 11 below the ice bank 30. According to this configuration, the cold air F flowing out of the opening portion 32c can be guided to the bottom plate 11 side below the ice bank 30, not the ice making chamber door 5a side or the partition portion 10 side. This can prevent the cold air F flowing out of the opening portion 32c from being directed to the ice making chamber door 5a side or the partition portion 10 side, and can prevent dew condensation from occurring on the ice making chamber door 5a or the partition portion 10.

Further, according to the refrigerator 1, the bottom plate 11 is provided at a position lower than the partition portion 10, and thus the cold air flow path 40 is formed between the bottom surface of the ice bank 30 and the upper surface of the bottom plate 11. According to this configuration, the cold air F flowing out of the opening 32c can be efficiently guided to the back side in the ice making compartment 5 through the cold air flow path 40, not to the ice making compartment door 5a side or the partition 10 side.

Further, according to refrigerator 1, ice box 30 includes, at a position on the front side of opening 32c, that is, on the opposite side to the rear side of ice making compartment 5: and a reinforcing rib 34. According to this configuration, the cold air F flowing out of the opening portion 32c can be easily guided to the rear side, that is, the side not facing the ice making chamber door 5a side or the partition portion 10 side, rather than the front side, and dew condensation can be prevented from occurring on the ice making chamber door 5a or the partition portion 10.

Further, according to the refrigerator 1, the bulging portion 32b functions as a guide portion for guiding the cold air F supplied from the cold air supply port 20 toward the opening portion 32c in the ice scoop housing portion 32. According to this configuration, cold air F can be prevented from staying in: in the ice scoop storage section 32 located in the vicinity of the ice making chamber door 5a or the partition section 10, the ice scoop storage section 32 and its peripheral portion can be prevented from being excessively cooled, in other words, the vicinity of the ice making chamber door 5a or the partition section 10 can be prevented from being excessively cooled, and dew condensation can be prevented from occurring at the ice making chamber door 5a or the partition section 10.

Further, according to the refrigerator 1, the opening forming region R in which the opening 32c is provided in the ice scoop storage section 32 is longer than the length of the ice scoop 100 stored in the ice scoop storage section 32. According to this configuration, it is possible to avoid the entire opening 32c in the opening forming region R from being blocked by the ice scoop 100, and to maintain a good flow of the cold air F passing through the opening 32 c.

In addition, according to the refrigerator 1, the front wall portion 31b is closed and is higher than the rear wall portion 31c in the ice bank 30. The front wall 31b of the ice bin 30 is: the wall portion facing the back side of the ice making chamber door 5a is closed by the front wall portion 31b, and thus the cold air F supplied from the cold air supply port 20 can be prevented from directly blowing to the back side of the ice making chamber door 5 a. The rear wall 31c of the ice bin 30 is: the wall portion facing the rear wall portion of the ice making compartment 5 in which the cold air supply opening 20 is provided is at least lower in the rear wall portion 31c than the front wall portion 31b, so that the flow path of the cold air F from the cold air supply opening 20 into the ice making compartment 5, particularly into the ice box 30, can be sufficiently ensured while avoiding the blockage of the cold air supply opening 20 by the rear wall portion 31 c.

The present embodiment is not limited to the above-described embodiments, and can be expanded or modified as follows. For example, the opening 32c may be provided at a side surface of the ice bank 30. In this case, the portion of the side surface of the ice bank 30 where the opening 32c is provided is: the inclined portion is inclined such that the normal direction is not directed toward the ice making chamber door 5a or the partition portion 10, so that dew condensation can be prevented from occurring at the ice making chamber door 5a or the partition portion 10.

The refrigerator according to the present embodiment includes, in a non-ice storage unit provided in a portion of an ice bank where substances other than ice are stored: an opening part opened toward the back side of the ice making chamber. According to this configuration, the cold air supplied from the cold air supply port into the ice making chamber can be prevented from directly blowing to the ice making chamber door or the partition portion, and dew condensation can be prevented from occurring on the ice making chamber door or the partition portion.

Although one embodiment of the present invention has been described above, the embodiment is provided as an example and is not intended to limit the scope of the invention. The new embodiment may be implemented in other various forms, and various omissions, substitutions, and changes may be made without departing from the spirit of the invention. The present embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalent scope thereof.

Claims

1. A refrigerator, characterized by comprising:

an ice making chamber;

a cold air supply port for supplying cold air into the ice making chamber;

an ice box housed in the ice making chamber;

a non-ice storage unit provided in a portion of the ice box that stores substances other than ice;

an opening portion provided in the non-ice housing portion;

an ice making chamber door opening and closing the ice making chamber; and

a partition part separating the ice making chamber from a storage compartment below the ice making chamber,

the opening portion is opened toward an inner side of the ice making chamber without being opened toward the ice making chamber door and the partition portion,

a rear surface of the non-ice receiving portion not opposed to the ice making chamber door has an inclined portion,

the opening portion is provided in the inclined portion.

2. The refrigerator according to claim 1,

further comprising a base plate constituting a bottom of the ice making compartment,

the opening portion opens toward the bottom plate.

3. The refrigerator according to claim 2,

the bottom plate is disposed at a position lower than the partition portion, and a cold air flow path through which cold air flows is formed between the bottom plate and the bottom surface of the ice box.

4. The refrigerator according to claim 1,

the ice box further includes a rib at a position opposite to the inside of the ice making chamber with respect to the opening.

5. The refrigerator according to claim 1,

the ice box further includes a guide portion for guiding the cold air supplied from the cold air supply port toward the opening portion.

6. The refrigerator according to claim 1,

an ice shovel storage section for storing an ice shovel as a substance other than ice is provided as the non-ice storage section,

the ice scoop housing section has a region in which the opening is provided, the region being longer than the length of the ice scoop.

7. The refrigerator according to claim 1,

in the ice box, a wall portion on the opposite side to the back side of the ice making chamber is closed and is higher than a wall portion on the back side of the ice making chamber.